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MAPPING OVERLAPPING CONSTELLATIONS: NATURE AND TECHNOLOGY
IN RESEARCH IN PHILOSOPHY/TECHNÉ AND ENVIRONMENTAL ETHICS
Glen Miller
Dissertation Prepared for the Degree of
DOCTOR OF PHILOSOPHY
UNIVERSITY OF NORTH TEXAS
May 2015
APPROVED:
Adam Briggle, Major Professor Martin D. Yaffe, Committee Member Eugene C. Hargrove, Committee Member Carl Mitcham, Committee Member James Kennedy, Chair of the Department of
Philosophy and Religion Studies Costas Tsatsoulis, Interim Dean of the
Toulouse Graduate School
Miller, Glen. Mapping Overlapping Constellations: Nature and Technology in
“Research in Philosophy and Technology”/“Techné” and “Environmental Ethics". Doctor of
Philosophy (Philosophy), May 2015, 296 pp., 2 figures, bibliography, 263 titles.
The overlap between the separate fields of philosophy of technology and environmental
philosophy can be investigated using the two longest running flagship journals for each field,
Environmental Ethics (EE) and Research in Philosophy and Technology, which is now published
as Techné: Research in Philosophy and Technology (RPT/Techné). By looking at the theoretical
and conceptual ideas on nature and the environment expressed in RPT/Techné, at those on
technology and artifacts expressed in EE, and at the individuals who contributed them using the
principles of social epistemology as developed by Steve Fuller, a stereoscopic view
incorporating the insights from both specializations can be constructed.
The ideas developed in the articles can be charted like stars within constellations, loosely
connected in groupings that are neither clear nor evident. Five constellations can be discerned
from the relevant articles in each journal, and while there is some overlap, there is considerable
difference. The stereoscopic view is developed in three ways: first, by reviewing the
contributions of authors who have published in both journals; second, by utilizing resources in
both specializations to add subtlety and depth to the ideas expressed, starting in this case from
Jacques Ellul’s “Nature, Technique and Artificiality”; and third, by using W. D. Ross’s ethical
theory, which fuses prima facie duties with virtues, to integrate traditional ethical concerns with
those raised by philosophers focused on technology and those concerned with the environment.
iii
TABLE OF CONTENTS
Page
LIST OF ABBREVIATIONS ......................................................................................................... v
CHAPTER 1. INTRODUCTION .................................................................................................. 1
CHAPTER 2. APPROACHING SEPARATE SPECIALIZATIONS ......................................... 15
Steve Fuller’s Social Epistemology as Interpretative Key ............................................... 18
Subsequent Lines of Inquiry ............................................................................................. 30
CHAPTER 3. NATURE (PHYSIS) IN RESEARCH IN PHILOSOPHY AND
TECHNOLOGY/TECHNÉ ................................................................................................ 33
Nature Seen Historically ................................................................................................... 35
At the Intersection of Nature and Techné ......................................................................... 41
Science, Technology, and Nature ..................................................................................... 52
Religion and Transcendence ............................................................................................. 65
Politics and Policy ............................................................................................................. 68
CHAPTER 4. TECHNOLOGY (TECHNÉ) IN ENVIRONMENTAL ETHICS ........................... 76
Techné Seen Historically .................................................................................................. 77
Making and the Natural World ......................................................................................... 80
Science, Technology, Technoscience, and Nature .......................................................... 100
Religion and Transcendence ........................................................................................... 106
Aesthetics of Artworks ................................................................................................... 110
CHAPTER 5. TOWARD A STEREOSCOPIC VIEW OF TECHNÉ AND PHYSIS ............... 114
Longitudinal Interspecialization Analysis ...................................................................... 115
Brief Sketches of Crossover Contributors ...................................................................... 119
iv
Andrew Light: Durbin’s Synthesis Between the Specializations ................................... 147
Weaving Between the Specializations ............................................................................ 151
CHAPTER 6. ROSS’S DUTIES AS A COMPREHENSIVE ETHICAL THEORY ................ 159
Explanation of Ross’s Duty Ethics ................................................................................. 162
Ross and Ethics of Artifacts and the Environment ......................................................... 168
Extending Prima Facie Duties ........................................................................................ 174
Some Contemporary Techno-Environmental Virtues .................................................... 185
CHAPTER 7. EPILOGUE ......................................................................................................... 194
APPENDIX A. EDITORS AND VOLUMES OF RESEARCH IN PHILOSOPHY AND
TECHNOLOGY/TECHNÉ .............................................................................................. 199
APPENDIX B. ARTICLES IN RESEARCH IN PHILOSOPHY AND TECHNOLOGY/TECHNÉ,
1979-2014, BY CONTRIBUTOR .................................................................................. 208
REFERENCES ........................................................................................................................... 275
v
LIST OF ABBREVIATIONS
The following abbreviations have been used to refer to the journals cited frequently in this
dissertation:
EE Environmental Ethics
RPT Research in Philosophy and Technology
RPT: Techné The entire collection of publications linked to SPT, which includes
RPT, P&T, JSPT, and Techné: RPT
P&T Philosophy and Technology
SPT Society for Philosophy and Technology
JSPT Journal of the Society for Philosophy and Technology
Techné: JSPT Techné: Journal of the Society for Philosophy and Technology
Techné: RPT Techné: Research in Philosophy and Technolgy
1
CHAPTER 1
INTRODUCTION
Despite the obvious connection between technology and the environment, which is
visible at local, regional, and, in some cases, global levels, and, while popular literature is
increasingly attuned to environmental alterations, relatively little philosophical work has been
done at the intersection between the fields. The distinction between technology and nature has
been made in Western thought since at least the time of Aristotle, who noted that techné differs
from physis in that latter possesses an innate impulse and direction of motion and rest.1 To use
Aristotle’s terminology, the efficient, teleological, and formal causes for artifacts do not arise in
the being itself but instead are determined or at least influenced by external agents. Like the
word nature does today, though, physis had many different meanings. Aristotle did not just
distinguish physis from techné in Physics. He also contrasted physis with nomos, or convention,
a product of culture, in Nicomachean Ethics.2
Differentiating between the three realms—nature, culture, and technology—is rarely easy
since they are interrelated. On the one hand, technology cannot exist without nature, which
provides its “raw materials” and the external causes (or those that have co-responsibility, to use
Heidegger’s sense of the term), that brings it into existence. Fusing this line of thought with
cosmogenic and evolutionary science and knowledge of the tools used by animals, all technology
is natural: it all arises from the same source. On the other hand, the whole world has been called
technological, in the sense that it has all been impacted by humans. Human constructions are of
a larger scale than ever before—towers in Abu Dabai dwarf the pyramids—and emissions now
1 Aristotle, Physics, translated by Joe Sachs (New Brunswick, New Jersey: Rutgers University Press, 1995),
192b8. 2 Aristotle, Nicomachean Ethics, translated by Joe Sachs (Newburyport, Massachusetts: Focus Publishing,
2002), 1094b15.
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change the atmosphere, water, and ground more than they ever have, in part due to the number of
people and their consumption practices. The current age has been called the Anthropocene in
response to this realization.
Moral judgments are influenced by whether technology is thought of as natural. On the
one hand, many environmentalists push for limits to the encroachment of wilderness by human
activities and decry its effects, including air and water pollution, and bemoan the lack of
common knowledge about nature and the minuscule amount of time the average person spends in
it. From this viewpoint, technology should be checked and nature deserves protection or space.
On the other hand, those who see the development and use of all kinds of technology as a natural
part of being human view these complaints as answerable by a sublimated understanding of the
human-technology-nature relationship. According to this view, technology can provide fixes for
whatever ails humans, and perhaps the transformation that is needed is to alter humans so they
can flourish in the new environment.
While both extremes contain a kernel of truth, they also unnecessarily deflate inquiries on
these realms into one dimension, and, in the process, minimize possible philosophical
contributions to the broader discussion. By bracketing inquiry, one of the hallmarks of the
natural and human sciences, clear and distinct results can be determined, but always at the cost of
comprehensiveness. An overarching inquiry, one that spans natural and human sciences, one
that is wrought with conceptual and cultural issues, is precisely the kind of question about which
philosophers should be concerned, in spite of, or perhaps because of, its difficulties and
consequences. Questions about technology and the environment affect our conception of the
good life, especially when the virtue of justice is considered. The connection is particularly
prominent in the environmental justice movement, which addresses procedural and substantive
3
issues involved in the distribution of environmental benefits and burdens among different social
and economic groups. An appeal to justice is often made by those concerned with unequal
access to technologies between different social groups. One example is concern over the Digital
Divide. Other examples of philosophical concepts commonly invoked include the virtue of
prudence, needed to govern human repurposing of natural resources toward technological ends;
the assignment of moral standing, necessary to determine which consequences of technology are
of moral concern; and epistemic uncertainties, involved in our production, use, and subsequent
assessment of the effects of human production and use of technology.
The philosophical community’s response to such issues has regrettably followed a
bifurcation similar to the interest groups in the general public. Philosophy of technology is
considered a separate “field” from environmental philosophy. Each specialization has its own
journals. Institutional support rarely happens in the same department or even university. Few
individuals are members of both intellectual communities, and even fewer have a sophisticated
understanding of both disciplines. The two specializations, which should add depth to public
discourse and nuance to discourse of the other, have been remarkably silent in academic
discourse and in their contributions to popular and political discussions about how one can and
should think about technology and nature, and how one can craft a good life in the material
conditions in which one finds one’s self.
The present inquiry is a step toward healing the division described above by finding
points of overlap in the two longest running journals for each specialization. It is inspired by
Aristotle, who, after noting all the difficulties that accompany distilling physis from nomos,
proceeds to take on that challenge. Here is a brief outline of the project.
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In the second chapter, I explain the rationale for selecting two longstanding and esteemed
journals, Research in Philosophy and Technology, now published as Techné: Research in
Philosophy and Technology, and Environmental Ethics,3 to provide the a representative look at
each specialization. The direction of the inquiry is shaped by the version of social epistemology
developed by Steve Fuller. While many philosophical inquiries focus solely on concepts or
ideas, social epistemologists emphasize the people and institutions behind ideas that comprise
academic discourse. While I had planned to follow lines of discourse on nature in RPT/Techné
and techné in EE, the lines, when they existed, were too short for analysis. Instead of trying to
force a linear trajectory on the articles, I grouped them as constellations. Constellations require
the viewer to use imagination in order to see the shape formed by the stars, and no one mapping
of the sky can be called objectively right. The task of mapping of the constellations is done in
the third and fourth chapters.
The third chapter maps articles in RPT/Techné that explicitly define or work with the
concept of nature or similar terms into five constellations. Many of the articles were spurred by
two volumes largely dedicated to the theme of “Technology and the Environment” in 1992 and
“Philosophies of the Environment and Technology” in 1998. The first constellation includes
articles that focus on the term “nature” from its Greek origins to the present. The second
constellation is comprised of those articles that look at both nature and technology, and it
includes articles from J. Baird Callicott and Holmes Rolston, luminaries in environmental
philosophy. The third constellation includes articles that consider how science and
technoscience affects nature. The fourth consists of two articles on religion that were both
3 RPT/Techné refers to the entire collection of journals closely associated with the Society for Philosophy
and Technology (SPT). Hereafter, Environmental Ethics is referred to as EE. See the List of Abbreviations for more information.
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inspired by Lynn White, Jr. The last is composed of articles that discuss politics and policy with
an eye toward conceptual or theoretical detail.
The fourth chapter organizes articles in EE that address techné and similar terms into five
clusters. Unlike articles in RPT/Techné, the articles in EE were the work of the contributors:
there was no directive from the journal editor or an associated society. Three of the five
constellations are similar to what was found in RPT/Techné, but the other two are composed of
creative and novel contributions that deserve more attention from philosophers who focus on
technology. One constellation includes a couple of historical inquiries into technology. A
second constellation consists of articles that have to do with understanding how the natural world
is affected by art or craft, which differs significantly from the almost exclusive focus on modern
technology in RPT/Techné. A third constellation is comprised of articles that investigate science,
technology, and nature, which is similar to the third constellation in RPT/Techné. A fourth
constellation also has a counterpart in RPT/Techné: the papers in it consider aspects of religion,
technology, and nature that arose from White’s “The Historical Roots of Our Ecologic Crisis.”
The fifth constellation, which includes articles that reflect on artifacts and natural things through
the perspective of aesthetics, has no analogue in RPT/Techné.
After building the individual images of techné and nature in RPT/Techné and EE,
respectively, the next task is to bring them into focus, to comprehend both at the same time. I do
this first by looking at yearly publication numbers, then by reviewing the twenty-four
contributors who published at least one article in both journals. Paul T. Durbin’s history of
philosophy of technology, which locates the intersection between the specializations in the work
of Andrew Light, one of the dual contributors, sets the originality of this project into relief. The
chapter ends with a sketch of the interrelated concepts of freedom, evolution, and ecology that is
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informed by the history and depth of both specializations, starting from an RPT article by
Jacques Ellul.
The penultimate chapter proposes an amended version of W. D. Ross’s prima facie duties
as a suitable theory that can integrate environmental and artifactual issues. The amendments that
are necessary are to extend concerns to a global population and future generations, to address
non-human organisms, and to address the non-organic environment, broadly understood to
include ecosystems and the built environment. All but the last are incorporated by extending the
scope of the duties, while the last is addressed by supplementing the intellectual and moral
virtues that Ross recognized. While there are some minor issues with the extension, it is
relatively successful when it is assessed according to the aim of providing a flexible structure
that provides space, but not prescriptions, for concerns traditionally associated with ethics and
issues of technology and the environment.
Before starting on the project, however, let me sketch out a few hurdles in the way of
such work.
A powerful force hindering integration of philosophical issues associated with technology
and the environment is the trend toward increasing disciplinization of academic work. New
disciplines originated in the human and natural sciences to address the exponential growth of
information and to manage a multiplicity of methods. New disciplines form when the amount of
important information in a discipline exceeds the grasp of its average practitioner. New modes
of analysis can lead to novel disciplines or specializations if they are complex enough to demand
nearly exclusive attention or are suited to a subset of objects that were at one time all studied in a
discipline. Philosophy, originally the master science that encompassed all others, changed
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similarly: many philosophers became “scholars and specialists themselves,” “brought back
under the domination of science.”4
The development of philosophy of technology and environmental philosophy into
separate social groups and separate specializations is one such example of a narrowing of scope.
It is, in a sense, subservience, freely chosen. The majority of intellectuals in both groups, it
seems, have been more attuned to their standing in the eyes of those practicing philosophy in its
traditional spheres of metaphysics, epistemology, ethics, and logic than in how their work related
to their counterparts pursuing a specialization that, at first glance, appears to be properly
excluded from their concerns. This is wrong, though: the other specialization should be
considered complementary.
The chasm between philosophy of technology and environmental philosophy arose in
spite of their contemporaneous origins that had similar philosophical foundations. Over time,
each specialization developed its own body of literature and technical jargon, in large part
through their respective journals. On the one hand, the specialization is not particularly
surprising. Both fields were trying to deal with a motley crew of contributors from philosophy
and a range of other fields, such as Science and Technology Studies, law, politics, and certain
sciences: just to attain consistency within the specialization required ongoing effort. On the
other hand, the processes of specialization began to create impediments that prevented
individuals from coherently considering both aspects of philosophical concern.
The burdens erected by fragmentation are paired by a related impediment, the celebration
of depth, rather than breadth, in academic research. To the extent that journal publications are an
accurate measure of what is valued in academic research, adding a slightly new perspective or a
4 Friedrich Nietzsche, Beyond Good and Evil, translated by Judith Norman, edited by Rolf-Peter Horstmann
and Judith Norman (Cambridge: Cambridge University Press, 2002), §204.
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minor extension of an argument is surely the best “return for investment” on research efforts for
an individual scholar. The benefits of such corrections, the theory goes, are aggregated as
academic discourse progresses. Yet one result of my inquiry is that adding a minor contribution
to an academic debate may be of limited or no value: at worst, it may be ignored by other
scholars, or, more commonly, perfunctorily cited in the third or fourth paragraphs of future
publications, without any evidence of a serious evaluation of its arguments or how they would
affect the argument put forth in the new paper.5 The tendency toward depth and rigor,
especially to the extent that the latter is understood to demand at least a superficial understanding
of all other writings on a particular topic, even to the point of learning new languages to fully
understand a few paragraphs, has two negative consequences for discourse.
The first consequence is that the emphasis on specialization and depth can lead to a
trained incapacity, to use the noted phrase of social critic Thorstein Veblen that was later
popularized by Kenneth Burke, among its practitioners. To the extent that these values are
elevated over others, academics are dissuaded, and may even lose their ability to conduct,
general, interdisciplinary inquiries necessary to participate in discourses on topics that do not
neatly fall within disciplinary boundaries, which themselves expand far beyond a particular
specialization. If the values of specialization, depth, and rigor are reinforced in young scholars
from the beginning of graduate school until they have earned tenure, the values may become so
ingrained that they will determine the research projects the academics undertake for the
remainder of their careers.
A second consequence of the demanding burdens of depth and rigor is that philosophical
contributions often only see the light of day so far after general impressions have already formed
that they function as “academic exercises,” in the most pejorative sense of the term, drawing
5 Exceptions exist, and they are often the supreme achievements of academic discourse.
9
little interest and having less influence outside of the specialization, or perhaps the discipline, if
the author is lucky or slightly more timely. Tardy contributions also impoverish academic
discourse because they are not evaluated by a wider range of intellectuals, so they are less likely
to be tested and developed to the greatest possible extent.
The present inquiry tries to bridge the aim for rigor—itself valuable in moderation and
one characteristic of academic work that gives it gravitas and traction—with the desire to
develop a research style that avoids the traps associated with it. While it at first appears to be
subject to the preceding critique of narrowness—a study based on two journals, EE and
RPT/Techné, each focused on a specialization, seems to be a niche of a niche—its scope is
actually much broader due to the interdisciplinary nature of both journals.6 It is an effort toward
development of a stereoscopic view of the world that fuses together insights from both
specializations while pointing out blind spots and obstructions that have arisen through their
separate development.
The present inquiry aims to make progress in three dimensions. Most obviously, it is
intended to be a theoretical contribution to the body of scholarly discourse. More narrowly, it is
a trail in interdisciplinary inquiry that may show the potential of such efforts: it seems to me the
best way to promote the erosion of disciplinary boundaries is to write outside of them. I hope to
follow Augustine in this effort: I write so that I might progress, and I progress by writing.
I also seek to make progress in a more practical dimension, at a personal level. I see
issues of technology and the environment as important concerns that must be addressed in asking
the fundamental question of ethics, as understood by Aristotle, namely, what it means to live a
6 The interdisciplinary spirit of both magazines was aptly expressed by Eugene Hargrove, reflecting on the
submissions to the journal, who bemoaned the lack of submissions on “economics, business, biology, public policy, health, environmental standards, environmental impact assessment, law, population, and future generations—and
10
good life for a human. To be sure, Aristotle elevated contemplation as the culmination of human
being, but by it he did not mean separation or inactivity. Humans were meant for a polis, he
reasoned, and to only talk about philosophical issues without actively living virtuously is like
hearing a doctor’s guidance but not following it.7
I also expect the effort to succeed in the pedagogical dimension, by increasing my ability,
and that of my readers, to lead students through the complicated issues that affect technology and
the environment that bother and interest them, informed by the best of academic research at that
intersection. While the pedagogical dimension is important in my own intellectual development,
it is essential to the success of the broader enterprise of the university. While pedagogy is often
undervalued at public universities in the United States, who are shifting their priorities toward
research, shorting the pedagogical position obstructs the case for public funding of universities
during an era when accountability is a growing tagline.
Lest I be accused of mercenary philosophizing, the importance I place on the pedagogical
dimension is more than a response to market or political forces. It also rehabilitates a split that
has arisen between the freedom to teach (Lehrfreiheit) and the freedom to learn (Lernfreiheit).
These two freedoms were balanced in the German instantiation of the university, which most
closely resembles the structure and social expectations of its current form.8 Under Wilhelm van
Humboldt’s guidance, the topics that instructors can teach as experts are selected in concert with
students. Tendencies of researchers to explore increasingly abstract and detailed inquiries, by
which professors develop expertise and sustain intellectual interest, are checked in two ways.
Professors have to be able to find an interested group of students to take their classes, and to do
even this list is far from being exhaustive” in “New Directions,” EE 3, no. 4 (Winter 1981): 291, doi: 10.5840/enviroethics1981341.
7 Aristotle, Nicomachean Ethics, 1097b10, 1105b10-15. 8 Steve Fuller, Sociology of Intellectual Life (London: Sage, 2009), 40.
11
so they have to develop the ability to convey their research in a way that can be understood by
non-experts. By pairing Lehrfreiheit and Lernfreiheit, universities can claim a legitimate social
function, one that contributes to the flourishing of free societies of socially and economically
mobile citizens. They create social capital through their research function, and they distribute or
democratize this capital through their teaching function.9
Even though the present formulation of this project is intended for an academic
audience—not for students or for the broader public—its design and execution have been shaped
with the balance between Lehrfreiheit and Lernfreiheit in mind. An impetus for the project was
my students’ meager responses when faced with the interwoven nature of environmental issues
and how they related to technology. They often exhibited an intellectual paralysis, one that may
have resulted from intimidation at the interdisciplinary nature of the problems that was further
exacerbated by a university education that emphasizes the importance of the sciences.
The outline of the contours of the intersection between the two specializations may be of
interest to other scholars whose research and instruction involve both fields but who were trained
in one and lack the time to learn the other. In addition, I hope to add personal and institutional
awareness to the history of ideas of each specialization, which I think will be especially
important to those who teach in this area or who contribute to extra-academic discourses.
Further, just as both journals seek to engage a range of contributors and readers that include
academic philosophers and those with interest in those topics, I also have attempted to write with
as little jargon and as few footnotes as possible. The aim of doing so is to give non-specialists a
vocabulary and theoretical structure rich enough to understand and address the social and ethical
concerns faced at the present without the accompanying burden of mastering the expertise in
9 Fuller, Sociology of Intellectual Life, 4. Fuller and Collier use the term “prolescience” to evaluate
“research in terms of its teachability” (31).
12
both specializations, though such simplification is not always possible except at the expense of
an unacceptable loss of meaning.
Keeping scholarly, personal, pedagogical, and public goals in mind while integrating the
two specializations should yield ancillary benefits for the academic profession. By attending to
student concerns, I am preparing to participate in extra-academic discourse that shapes political
attitudes, government and corporate policies, and individual practices more than intra-academic
discourse does. The profession may be able to take some credit for an improvement in the
quality of public discourse, which may result in more thoughtful development of political
identities. Moreover, the concerns I expect to raise will most likely lead to conflicts between my
positions and those of powerful interests, providing evidence of the importance of tenure, which
will likely need to be repeatedly justified because those outside academia see no reason that
professors get job security that few others have.
In addition to the contributions of faculty at Colorado School of Mines, the University of
North Texas, and the University of Twente, this dissertation owes its existence and form to
several specific individuals. Carl Mitcham introduced me to John Staudenmeier’s Technology’s
Storytellers, a bibliometric analysis of the journal Technology and Culture, as a way to manage
an overwhelming amount of literature on a broad set of topics.10 Robert Figueroa taught me the
value of focusing on a specific journal through a term paper he assigned in a graduate seminar in
Environmental Ethics that I took early in my studies at the University of North Texas. Martin
Yaffe’s studied assessment of Lynn White, Jr. and Aldo Leopold in his introduction to Jewish
Environmental Ethics boosted an inclination I already had to look critically at inherited
knowledge, even in a field as “subversive” as environmental ethics, which itself is not immune to
10 Mitcham’s scholarly disposition, one of humility and curiosity, also helped shape my own intellectual
self, though perhaps not as much as it should have.
13
repressing history. Adam Briggle’s patience, encouragement, and way he practices philosophy
also encouraged me to attempt a less conventional project.
More generally, my project was prompted by my respect for the intellectual efforts of the
eminences grises, especially Mitcham, Eugene Hargrove, and J. Baird Callicott, whose
encyclopedic knowledge of each specialization made my graduate studies a joy and whose
anecdotes introduced me to the personalities behind the ideas. My instructors who encouraged
careful readings of “old” texts taught me a robust distrust of the search for novelty, a distrust that
has been reinforced by comments of my own students. Another inspiration is my curiosity in the
role of journals in academic publishing and in the functioning of the university as institution.
Because my scholarly work began after searchable databases had become common, I wanted to
see how a medium with continuity that arises from a community of scholars—at least in
principle—had been transformed into one vein in a large pool from which individual articles on a
particular topic could be accessed. The change has much in common with the transition from
extended record albums to the rise of the single song, which has transformed the music industry.
My review also sets the stage for a better understanding of the forward-looking side of the Janus-
face of the journal environment, that is, the future of academic journals operating in a rapidly
changing media environment providing content to readers with differing interests and
affiliations, and who consume content from a variety of sources and through a variety of media.
Interests in the changing space of journal production evoked curiosity in a broader topic,
the consideration of how the structure of knowledge production and distribution in academia and
in general is structured now and will be structured in the future. I have already discussed
concerns about increasing disciplinization and specialization in academia, which arises in part as
a way to manage information. As argued earlier, many pressing societal problems cannot be
14
solved, or even conceptualized, through the lens of a single discipline. While the
interdisciplinary breadth of EE and RPT/Techné meant that my inquiry escaped disciplinary
boundaries from its origin, both still followed the general trend of disconnecting individuals from
their ideas. The peer review process, an attempt to avoid bias and to maintain quality, is “blind”
by design. While author information is published along with the articles, it is always in the
background, either buried in a footnote or a short section at the front or back of the volume, and
it is always terse. Subsequent citations of an article omit this information entirely. At the same
time, the chronological nature of journals in general obscures patterns of discourse, when volley
and response can be separated by years or even decades. Attending to these aspects of scholarly
participation offers the promise of opening up promising lines inquiry and illuminating barriers
to progress.
These concerns inspired me to amend my provisional inquiry to include more than a
comparative history of ideas. The history of ideas, as understood in Arthur O. Lovejoy’s classic
work into the interrelations and shifts of meanings of the Great Chain of Being, is the
fundamental model for the third and fourth chapters, which map the discourse on relevant
articles from philosophy of technology and environmental philosophy. The chapters do more
than that, though: they supplement the disembodied ideas with information about the thinkers
themselves. The chapters are intermediaries between a disembodied history of ideas and an
intellectual history that considers what the authors think or say, who they are, and what they do.
Yet my primary concentration is on the philosophical aspects of the two specializations, not just
a historical review. To provide an overarching framework for the inquiry, I have employed
Steve Fuller’s version of social epistemology.
15
CHAPTER 2
APPROACHING SEPARATE SPECIALIZATONS
My analysis concentrates on two journals, EE and RPT/Techné in order to overcome the
hurdles discussed previously that arise from an exponential growth in literature and terminology
in each specialization. It can be understood as a second-order complement to the essays from
each journal, which are the primary sources that possess the customary depth and rigor for
academic work. My analysis can be understood in a second way, as revealing and adding
texture, a third dimension, to the intellectual tapestry of both specializations.
Out of many quality journals in both fields, EE and RPT/Techné are the best
representatives of their respective specializations for several reasons. Both are well-respected,
flagship journals. Their reputations increase the likelihood that important themes, approaches,
and topics that have been discussed in each specialization are included in the journals, and that
the contributions flowed from the pens of distinguished scholars. Both journals emerged at the
same time, in the late 1970s, which makes them proper subjects for a comparative analysis. Both
have been published longer than most other journals concerned with these topics, which makes
them ideal candidates for a longitudinal study.
Both journals have rejected disciplinary boundaries. EE is subtitled “An Interdisciplinary
Journal Dedicated to the Philosophical Aspects of Environmental Problems.” When RPT:
Techné transitioned to a quarterly journal, its editors explicitly sought contributions from those
who were not academic philosophers "as long as their work meets the standards of some
philosophical perspective.”11 Seemingly counterintuitively, by focusing on a particular kind of
being—nature or technology—both journals managed to de-discipline philosophy, to grant it the
11 Paul T. Durbin, “Introduction to the New Journal,” JSPT 1, no. 1-2 (Fall 1995): 2, doi:
10.5840/techne199511/21 (italics in original).
16
breadth it had possessed until modern times, and to enlist the participation from those outside of
the confines of academic philosophy.
While the journals have much in common, they also diverge in significant ways, as a
quick look at their histories shows. EE has been under the hand of editor Eugene Hargrove since
its founding in 1979. Hargrove has traced its genesis even earlier, to 1977 “at about 10:30 AM
on April 29, somewhere between the tenth and fifteenth floors on an elevator in the Sheraton-
Chicago Hotel” at the Western Division Meeting of the American Philosophical Association.12
Initial institutional support was provided by the John Muir Institute, the University of New
Mexico, the American Conservation Association, and Chevron USA. In the first issue, Hargrove
identified two purposes for the journal: “first, as a forum for diverse interests and attitudes, and,
second, as a means towards the establishment of an environmental ethics institute, by creating
the technical material which will make such an institute possible.”13
Hargrove quickly achieved the second goal with the founding of Environmental
Philosophy, Inc., a non-profit that served as the holding company for the publication of the
journal, in September 1980. In the summer of 1981, Hargrove moved the journal to the
University of Georgia, where he had accepted a faculty position in the Department of Philosophy
and Religion at the University of Georgia. The journal was published at the University of
Georgia until 1990, when Hargrove moved to the University of North Texas. Since then, the
journal has been published there, and the Center for Environmental Philosophy, established by
Environmental Philosophy, Inc. in 1989, has also been located there. Hargrove is currently a
faculty member in the Department of Philosophy and Religion Studies.
12 Eugene Hargrove, “From the Editor: How, When, Where, Why,” EE 1, no. 1 (Spring 1979): 1, doi:
10.5840/enviroethics1979111. 13 Ibid., 1.
17
The simple history of EE stands in contrast to what has occurred at RPT/Techné, which
has had a series of editors over the course of its existence and has been published by several
different entities under a handful of names. It was first published as an annual series called
Research in Philosophy and Technology (RPT) in 1978 by JAI Press. The first editor was Paul
T. Durbin, who shepherded the journal as the official publication of the Society for Philosophy
and Technology (SPT) until 1985. Durbin was a longtime professor at the University of
Delaware. Due to a dispute between JAI and SPT that arose with Durbin’s initiation of the series
Philosophy and Technology, published by Kluwer, that built off of two earlier volumes in the
Boston Studies in the Philosophy of Science series, and its promotion as the official publication
of SPT, Frederick Ferré was brought on as editor. RPT was published from 1989 through 1994,
it was published under the editorial hand of Ferré, a longtime professor at the University of
Georgia who also contributed to environmental philosophy literature. From 1995 to 2002,
publication continued under the general editorship of Carl Mitcham, who at the time was a
professor of philosophy and of science and technology studies at Pennsylvania State
University.14
Nine volumes (the third through the eleventh volumes) of Philosophy and Technology
were published between 1987 and 1994. Concern over the price of the volumes led the board of
SPT to create a quarterly electronic journal, first published in 1995 as the Journal of the Society
for Philosophy and Technology (JSPT). Durbin returned at the helm for three years, until 1997.
Peter Tijmes, a Dutch philosopher, served as editor from 1997 through 1999. The journal was
renamed in 2000 as Techné: Journal for the Society of Philosophy and Technology. From 2000
until 2007 it was edited by Davis Baird, at the present the chief academic officer for Clark
University. Joseph C. Pitt, a philosophy professor at Virginia Tech, published the journal from
14 Several editions had guest editors. A list of the volumes is included in Appendix A.
18
the fall of 2007 until the spring of 2014. The journal changed names again in 2008, becoming
Techné: Research in Philosophy and Technology. The online journal is currently edited by
Neelke Doorn of Delft Univeristy and Diane P. Michelfelder of Macalester College and is
published three times a year.
Steve Fuller’s Social Epistemology as an Interpretative Key
While epistemology has usually not been concerned with specific individuals—instead
asking questions about how a person can justifiably claim to know something, or whether there
are limits to what a person can know, for example—social epistemology takes a different
approach. Social epistemology does not presume that knowledge is an absolute good that can
potentially be grasped by all individuals. Instead, it primarily understands knowledge as a social
product that gains validity based on consensual agreement more so than its coherence with
“objective truth.” Correspondingly, the validity of knowledge depends to some extent on the
breadth of contributors and the diversity of their outlooks. The appeal of consensus, the aim to
universal assent, has a counterbalance, however. Knowledge is power when it is held by some
but not others. To put it another way, knowledge is a relative social good.
The term social epistemology gained currency in the late 1980s, largely through the work
of Steve Fuller, who studied history and philosophy of science at the University of Pittsburgh.
He had encountered the term in Marc De Mey’s The Cognitive Paradigm (1982), but it was Fred
Schmidt’s call for papers for Synthese that Fuller calls the “proximate cause” of his inquiry.15
Fuller “took up the issues that arise from having to make decisions in the present, the
justification of which must be drawn from past cases while, at the same time, setting precedent
15 Steve Fuller, “Social Epistemology: A Quarter-Century Itinerary,” Social Epistemology: A Journal of
Knowledge, Culture and Policy 26, no. 3-4 (October 2012): 267-283. doi: 10.1080/02691728.2012.714415.
19
for future judgment.”16 His target was the common understanding that scientists were esteemed
judges of facts put before them. Their methodical judgment transforms a subjective position to
be universally binding on their colleagues. The commonly accepted scientific paradigm gains a
“objective validity” in this process. Fuller subscribed to the Edinburgh School of the sociology
of scientific knowledge, which challenged this viewpoint. He argued that this understanding of
science ignored its “repressed history,” and recognition of its history would “challenge the
epistemic monopoly of the dominant paradigm.”17 Fuller’s social epistemology rejects any
account that does not ask “how the agents came to be as they are, facing the problems that they
do, which in turn calls forth some sort of explicit epistemic activity.”18
Work in social epistemology has extended beyond Fuller’s initial interest in science and
of scientists, most notably by Fuller himself. One particularly impressive effort is Randall
Collins’s Sociology of Philosophies, which, as the title indicates, follows philosophers rather
than scientists, and, as the subtitle indicates, attempts an expansive goal of providing “a global
theory of intellectual change.”19 My dissertation can be seen as an extension and a hybrid of
Fuller’s original study of scientists and Collins’s work over histories of philosophies. Some
relevant articles in RPT/Techné and EE are written by scientists or technologists, others by
policy experts, and still others by philosophers. My effort tests several of Collins’s theories, and
it seeks to shed light on the history of the two specializations.
Repression is often unintentional and, despite its common connotation, may not be
negative. All histories, including all intellectual histories, are “repressive” to a degree, since
16 Ibid., 267-268. 17 Ibid., 268. Fuller’s version of social epistemology differs from analytic social epistemology, such as the
kind practiced by Alvin Goldman. Goldman’s version restricts its attention to “reliable processes for arriving at the truth” (269), a position that implies that truth can be disembodied and decontextualized, a position that Goldman’s fellow analytic social epistemologist William Alston criticized as being fit for androids, not humans.
18 Ibid., 279-280.
20
only some facts can be included and these must be contextualized, even if the rationale for
inclusion is left unstated. As the two specializations in which I am interested pass into their
second intellectual generation,20 histories become codified. This transition point is a good time
to look for underappreciated articles.
The gold standard of the discovery that can be done in cross-specialization or cross-
discipline review can be found in the work of Don R. Swanson. Swanson was an information
scientist, who proposed, and, in that sense, “discovered,” that fish oil could cure Raynaud’s
syndrome.21 Swanson had no medical training and ran no experiments to arrive at this
discovery. Instead, his research consisted of reviewing articles from specializations that rarely
cross-pollinated, that is, rarely cited each others work, but yet were concerned with related
topics. In the process, Swanson debunked the prevailing wisdom that uncited articles were of
little importance and highlighted the importance of working across specializations. Later, in an
ASIST Award of Merit acceptance speech, he made a radical claim: “the connection explosion
may be more portentous than the information explosion.”22
While the possible outcomes of my research address a far less corporeal concern and are
concerned with philosophical rather than scientific research, I wanted to investigate whether
similar opportunities may exist in the connection of two specializations of my inquiry.23 To do
so required two lacunae of knowledge to be filled. The first was the gap between my
19 Randall Collins, The Sociology of Philosophies: A Global Theory of Intellectual Change (Cambridge,
Massachusetts: Belknap Press, 1998). 20 This concept, developed by Randall Collins, is discussed in more detail later in the text. 21 Swanson’s landmark discovery was published in 1986 in two journals, as “Undiscovered Public
Knowledge” in Library Quarterly 56, no. 2: 103-118, and "Fish Oil, Raynaud's Syndrome, and Undiscovered Public Knowledge” in Perspectives in Biology and Medicine 30, no. 1: 7-18.
22 Swanson, Don R. “On the Fragmentation of Knowledge, the Connection Explosion, and Assembling Other People’s Ideas,” Bulletin of the American Society for Information Science and Technology 27, no. 3 (February/March 2001), http://www.asis.org/Bulletin/Mar-01/swanson.html.
23 Swanson proposes that his approach may work in the humanities as well in “Undiscovered Public Knowledge,” 104.
21
understanding of each specialization, especially compared to the eminences grises, who knew
minor works in each specialization of which most young scholars were unaware. The second
lacuna was a systematic and comprehensive inquiry into how each specialization handled the
other. Since each was at least slightly “off-topic” to the other, it is reasonable to expect that both
may have suffered neglect on this account. I address the first gap, as best as possible, in the
histories in the third and fourth chapters. The second gap was the lack of a comprehensive
comparison between the two specializations, which I address to a degree in the fifth chapter, by
comparing the results found in the third and fourth chapters, which are supplemented by sketches
of individuals who contributed to both journals based on their articles.
While Fuller’s work provides the foundational structure for my inquiry, Collins’s magnus
opus provided several concepts and theories that guided the practical aspects of my inquiry.
Collins posited that the proper period of analysis of academic works is the timeframe of an
intellectual generation, roughly a third of a century, which is the current age of both EE and
RPT/Techné. While identifying intellectual epochs becomes more difficult as a specialization or
discipline develops, the designation seems particularly appropriate during the first generation. In
the case of both EE and RPT/Techné, the timeframe is personified: the first editors of each
journal are approaching the end of their academic careers, yet both are still active participants in
scholarly discourse. Durbin, however, already does so from an emeritus position, and Ferré, an
editor of RPT in the 1990s, has died. The passing of an intellectual generation marks a possible
inflection point, i.e., a change of direction of the specialization. At the same time, it seems likely
that the transition entails a loss of historical knowledge.
Collins argued that philosophical advances always take the form of dialogical moves.
Successors in a scholarly discourse, he says, respond to earlier works by either saying “yes, and”
22
or “no, but,” that is, either amending by addition or by positing a different line of argument.
Collins makes the even bolder claim that these responses can be predicted if one can
conceptualize the historical trajectory of the field, at least over a longer period of time. My
project tested whether his theory could predict movements in each specialization in the short
term and found it lacking. The binary structure that he observed, which may have been an
artifact constructed by the historians of philosophy who wrote the histories on which his analysis
was based, was a poor framework for organizing articles from RPT/Techné and EE.
Collins’s methodology has been rightly criticized by Fuller for excluding informal and
non-philosophical voices while purporting to provide a “global theory of intellectual change.”24
Because Collins’s theories arose from analyzing standard philosophical histories, intellectual life
appears “both self-organizing and self-oriented.”25 Fuller warns that “the fact that academics are
the premier producers of intellectual histories means that sociologists of knowledge need to take
extra care to ensure that the ultimate contributions of non-academic intellectuals are not
underestimated.”26 My project was designed to include the viewpoints of those who did not
pursue academic careers, whose contribution would most likely be ignored in a “repressed” and
simplified history of the field, though as far as I can tell, only a couple of contributors fall into
this category. My second claim for success on this front arises from the interdisciplinary nature
of both journals. Both journals explicitly invite contributions from those who are not academic
philosophers. Yet my review is still limited to those seeking an academic journal as a forum for
discourse, which excludes public intellectuals, journalists, policy-makers, and many others. The
ethical orientation most clearly present in EE but also common in RPT/Techné mitigates against
the risk that I will overemphasize philosophical research on metaphysics and epistemology, a
24 Fuller, Sociology of Intellectual Life, 45. 25 Ibid., 47.
23
charge Fuller levies against Collins’s study on account of the predilection of historians of
philosophy toward those areas of inquiry.27
The simplification or “repression” that arises by necessity in extensive academic histories
of philosophy can be seen in the two specializations that I am investigating as primary texts are
condensed into topical histories. Evidence of repression is the repeated use of the same
quotations or basic summaries in most later articles. While it can be the case that a pithy phrase
can summarize an entire argument, the “stock” citations often seem to fulfill a requirement
without giving any indication that the rest of the article or book was understood, and, in some
cases, even read.
Fuller gives two more reasons such quotation conformity should cause concern. First, it
supports the status quo by further elevating the “relevance,” at least in terms of citations, of
dominant voices in a field and by minimizing others. Quantitative tools often utilized in the
early stages of research function as designed when they exclude outlying viewpoints. The
increasing use of such metrics by tenure committee and administrators exacerbates these
concerns. Second, the practice “fosters a dependency culture whereby academics are rewarded
for feats of ventriloquism, that is, an ability to speak through the authority of others. The result
is institutionalized cowardice.”28 Regardless of whether Fuller is right about the consequence,
the shorthand used for such references often serves as a barrier to those who do not have formal
training in a field. Further, few references take adequate account of the material and social
conditions in which a statement is made, and even fewer adequately explain the perspective of
the contributors.
26 Ibid., 52. 27 Ibid., 44-45. Proof of this is that Collins’s study gives short shrift to someone like Machiavelli. In
addition, Fuller points out that Collins’s bias in favor of metaphysics and epistemology at the expense of value theory is a rejection of the positions of Leo Strauss and Quentin Skinner, one that Collins leaves unjustified.
24
Fuller’s inspiration led me to test the hypothesis that philosophy of technology and
environmental philosophy are mistakenly understood if they are not thought of as products of a
social processes, rather than as disembodied and decontextualized history of ideas as they appear
in academic journals. My study is a first step in considering the agents who have contributed to
each specialization in order to make sense of how they choose and approach their topics.
Surveys of discourse in which the contributors are situated in various disciplines, as EE and
RPT/Techné contributors are, are at risk of serious distortion if these factors are not taken into
account.
My inquiry also exemplifies both ways that Fuller claims that philosophy can relate to
interdisciplinarity. Fuller calls the first way normal interdisciplinarity, which posits philosophy
as a store of all knowledge, and the adjudicator of its disciplinary and specialization divisions. In
this sense, all intellectual work is philosophy, just as Newton called his laws natural philosophy,
not natural science. Philosophy regains its pre-disciplined precedence. Each journal is
interdisciplinary to an extent, and, a fortiori, so is my inquiry.
My inquiry also interdisciplinary in a deviant sense, to use Fuller’s terminology. He says
“philosophy itself may be the site for the production of interdisciplinary knowledge, understood
as a kind of second-order understanding of reality that transcends the sort of knowledge that the
disciplines provide left to their own devices.”29 By design, I seek a second order understanding,
though my comparative analysis works between specializations, not disciplines, that are usually
considered part of philosophy. It is a measure of the hyperspecialization present in the
contemporary academic environment that an approach intended to bridge disciplines can work
within one. It is all the more troubling that this is true within philosophy, which has historical
28 Ibid., 86. 29 Fuller, “Social Epistemology,” 273.
25
resources that can counteract tendencies toward fragmentation that have accompanied other
disciplines since they were founded.
There is at least one important difference between my approach in this inquiry and what
Fuller argues for. My research has been primarily inductive, not deductive. It seeks to be more
responsive to what has been said than the “trying” of a preconceived argument or position. My
intention is to work with an attitude of curiosity associated with the philosophy of the ancient
Greeks. According to both Plato and Aristotle, “the source and spring of philosophy is wonder
or curiosity,”30 which differs character from an approach that is active and agent-oriented, where
knowledge and power are cojoined. Fuller argues—at least in the sciences—for “belief by
decision” rather than “belief by evidence,” i.e., to assert and test a hypothesis rather than letting,
as the phrase goes, “the facts speak for themselves.” Fuller first argues for the former in science
and social epistemology, but his “proactionary” principle that bridges epistemic and moral values
extends “belief by decision” to philosophical and ethical questions themselves.31
Let me briefly summarize the ways in which my study relates to Collins and Fuller.
First, whereas Fuller focused on scientists, Collins concentrated on philosophers, who
contributed the majority of relevant articles to RPT/Techné and EE. Second, the theoretical debt
for the longitudinal structure of the inquiry and its appropriateness at the present time is owed to
Collins, though obviously my aims—two specializations over a single “intellectual life span”—
are but a fraction of his global theory that extends over recorded philosophical history. Third,
my inquiry can be seen as a test of his theory that intellectual discourse can be characterized as
“yes, and” or “no, but,” which, prima facie, seemed appealing yet overly simplistic. Fourth, my
30 W. K. C. Guthrie, A History of Greek Philosophy: The Earlier Presocratics and the Pythagoreans, vol. 1
(Cambridge: Cambridge University Press, 1962), 30. 31 Fuller, “Social Epistemology,” 278.
26
attempt to delineate contributors to the two specializations through their discourse patterns tests
Collins’s theories developed from his sociological analysis.
Important differences exist between Collins’s work and the present inquiry. One
difference is that I foreground the progression of ideas rather than people. It is first a history of
ideas, then a sociology, the reverse of Collins. A second difference is that my research is based
on a review of the works of the authors themselves. As Fuller pointed out in his criticism,
Collins used commonly available histories of philosophies, separated by tens if not hundreds of
degrees from the original intellectuals and their works. A third difference is that my comparative
inquiry uses the parallel social and intellectual progression of the specializations with the goal of
identifying promising future research projects, a more sophisticated synthesis than the binary
“yes, and”/“no, but” structure proposed by Collins.
My approach has several limitations. The greatest is that it further exaggerates the
impact of a few editors and reviewers and the limited intellectuals who chose to contribute to the
journals. Also, focusing on two journals excludes a priori many important articles and books
that have shaped intellectual inquiry on the relation of humans to their technology and to the rest
of the world, including the environment. Since EE and RPT were started, moreover, the
academic publishing space has become more fragmented. My study excludes newer offshoots,
including journals such as Environmental Values and Philosophy and Technology, that deal with
similar issues, and other publications that focus first on policy or science. Furthermore, any
second-order analysis includes the risk of misinterpreting or of treating articles superficially
because it is an analysis based on an individual’s summarization of the primary texts. If the first
step is flawed, the second will be, too.
27
Analyzing EE, which now has all of its issues online, had its difficulties. Many early
articles were assigned keywords that most likely would be different today, after thirty years of
development of each specialization. In addition, the secondary nature of philosophical issues
relating to technology in a journal targeting the environment meant that a simple keyword
analysis for technology, artifact, or techné was inadequate. I compiled an initial set of relevant
articles by searching the Philosopher’s Index for EE articles that mentioned technology, built
environment, design, artifact, and art in abstracts and titles. The relevant words were developed
by starting with artifact and technology and, in the course of research, discovering articles that
should have been included but had not been, and then revising the search to include the relevant
keywords used for those articles. This results of this search were overly broad, and some of the
articles were rejected after review because they did not investigate any philosophical aspects of
technology.
My hopes of analyzing the articles through a quantitative analysis were frustrated for
several reasons. First, the quality of the abstracts varied significantly. Generally, abstracts from
early articles were less reliable than more recent ones. Second, most environmental concerns
arise because of human impacts on the environment, and these are normally amplified by
technology. The mention of technology, as a keyword or in the title or abstract, does not indicate
any reflective inquiry into technology. Third, in all but a few articles, philosophical aspects of
technology were a peripheral concern, so they were expressed more summarily, if at all, in the
abstracts.
The challenges encountered in analyzing EE were minimal compared to what was
encountered analyzing RPT/Techné. RPT/Techné had the analogous issue that philosophical
inquiry on the environment was usually a secondary concern. Difficulties with abstracts and
28
keywords in EE paled compared to what was encountered with Techné. Whereas with EE
abstracts and keywords were somewhat unreliable, keywords and abstracts were not even
included in RPT/Techné until the publication was moved in a quarterly electronic format in 1995.
Nearly two decades of articles lack this “metadata,” which not only would have greatly
simplified my study, but also, in a sense, conceals the content of the articles. Unlike EE, which
has digitized all of its volumes, volumes of RPT are not available in an electronic format. These
shortcomings impede the use of indices, such as Thompson Reuters Web of Science, an
interdisciplinary index, that otherwise could be used to assess the “impact” of its articles and
which articles they cite. Further compounding these difficulties, early issues of RPT predate the
period over which Web of Science currently indexes articles, a particular problem because it
excludes early articles, the ones that were fundamental to the extent that the journal operates as a
progressive publication, i.e., that articles build of each other. For the preceding reasons,
indexing tools were used as research supplements, but were of little help.
Editorial and format changes have resulted in many disruptions that serve as obstacles to
longitudinal analysis. Over its history, RPT/Techné has shifted from an annual publication based
on SPT conference proceedings to a more traditional quarterly journal, which is a transition that
if studied could reveal interesting discontinuities. For several years–1985 to 1987–no volumes
were published, and from 1989 to 1992 and from 1995 to 2002, articles were published in more
than one outlet. Though these changes complicate any analysis, as I argued earlier, the different
outlets are best considered as one journal since the SPT community that supported them was
largely the same.
I initially tried to identifying relevant articles by reviewing editor introductions for
volumes that lacked abstracts. Unfortunately, while many were descriptive and informative,
29
others were far too concise to be helpful. In many cases, summaries provided in the editors’
introductions added little other than the title of the essay. Had they been more consistently more
informative, the introductions could have served as the counterpart to EE abstracts for
quantitative and bibliometric analysis, which would likely yield interesting insights. Yet even if
this were the case, Techné would differ from EE for the abstracts would have been the editors,
not the authors. The amount of work required to build roughly equivalent provisional abstracts
and keywords for all of the articles exceeded the time allotted to my project, though I anticipate
the results would be valuable.
These impediments, while frustrating, point to one aspect of the value of this project.
RPT is rarely held by university libraries.32 Yet from its origin it has regularly published essays
that are well researched and clearly articulate important aspects of a range of topics, including
those that have to do with the environment. The limited availability of RPT means that, absent
efforts like mine, part of the intellectual endowment accumulated over the last thirty years is
being dissipated. This loss is not occurring deliberately, i.e., with as the result of a conscious
decision that recent scholarly contributions exceed earlier articles in quality, breadth, or depth, as
far as I can tell. Instead, it seems to occur absent any direct cause. At a minimum, the loss leads
to some intellectual inefficiency, as contemporary scholars must rework what their predecessors
had already investigated. It also leads to the loss of the history of ideas, a lineage that can reveal
the forces—intellectual, political, and physical—that led to the current state of affairs. For all
those that do not subscribe to a Hegelian progression of intellectual history, there is no reason to
assume that current publications are sublimations of their predecessors. It is at least possible,
32 A search of www.worldcat.org for one early volume of the journal resulted in one match, at the
Universite Libre de Bruxelles - Bibliotheques. While this is not accurate—Texas A&M has most of the volumes—it is indicative of the rarity of a complete set of RPT.
30
and perhaps likely, that early articles in RPT (as well as JSPT) capture and articulate important
concepts, theories, and conflicts more clearly than later articles do.
While my approach has some important limitations, no approach can claim
comprehensiveness for matters that cross so many aspects of life. Reuniting philosophical
approaches to technology and nature expands the field of study to include all physical beings.
The most expansive interpretation would include non-fictional literature—especially that which
discusses the natural sciences—and fiction that affects how nature or art and beings in general
are conceptualized, an expanse that exceeds the grasp of any one human intellect. More
common approaches to manage the scope of academic inquiry, which are also integral parts of
the intellectual tapestry, also have limitations. Concentrating on a particular issue such as
climate change or hydrofracking necessarily treats other issues peripherally, and more general
claims cannot be substantiated from such a specific inquiry. Limiting an inquiry to a particular
philosophical approach such as hermeneutics provides a sliver of the philosophical insight, but it
necessarily excludes all others. Focusing on a particular intellectual who bridges the two
specializations such as Hans Jonas often results in at best incremental development, and, at
worse, a loss of clarity and force from the author’s original formulations. By pointing out the
shortcomings of other common approaches, I do not mean to disparage their importance. They
provide the fabric for the intellectual tapestry, thread by thread. My project aims to illumine the
artwork as a whole, to describe its development and the people who have developed it.
Subsequent Lines of Inquiry
In general, this work is intended as an foray to bring two separate specializations into
contact. Intellectuals from one specialization or another discipline may find that it serves as a
handy reference to the historical development of different ideas in each specialization, and how
31
they can proceed with it is limited only by their creativity. Scientists or policy-makers whose
work touches both specializations can test the first-order theories from the journal summaries
and the second-order reflection of this work. Instructors may be spurred into further
developments by student comments, and so on.
There are a number of other lines of inquiry that deserve to be adumbrated at this point.
• Most promisingly, more comparative analysis can be done to identify where progress has
been made in one specialization that can enrich or perhaps is in contrast with what has
happened in the other specialization. Points of convergence, divergence, and conflict can
be sketched out in more detail, and new syntheses can be developed.
• Consideration of how environmental ethics and philosophy of technology can inform
other “conventional” philosophical approaches, such as hermeneutics and feminism, can
be done by overlaying the histories sketched out here with journals dedicated with the
conventional approaches.
• More information about the authors, including their backgrounds, current positions, and
other interests, would further flesh out the biographical history. This research could
indicate viewpoints that have been excluded or have been “repressed.”
• Many more quantitative comparisons can be made between the two journals. These
studies would be aided immensely by the digitalization of early volumes of RPT. A
comparison could be done between the case studies chosen to see how they differ
between specializations, perhaps even when the same issue is at stake, and plotting them
geographically could lead to awareness of areas that have been ignored. A comparison
between citations may also prove fruitful, for example, to compare how different articles
develop the phenomenological insights of someone such as Merleau-Ponty.
32
• Digitalization would also enable more quantitative analysis into the general trends of
each journal. Meta-analysis would provide reflective insights into the workings of social
groups that function, to a degree, autopoeitically.
• The study could be expanded to include another journal. Those focused on policy or
environmental science would add still another dimension to the intellectual tapestry.
At this point, let me background further extensions and move to the current project.
33
CHAPTER 3
NATURE (PHYSIS) IN RESEARCH IN PHILOSOPHY AND TECHNOLOGY/TECHNÉ
The concept of nature has been a topic of interest in Research in Philosophy and
Technology (RPT) since its second volume (1979), which included two articles on the topic.33
While many articles have been published since that time, two volumes deserve special attention
for the purposes of this inquiry. The topic of the 1992 theme section was “Technology and the
Environment,” edited by Frederick Ferré. Ferré was the chair of the Department of Philosophy
at the University of Georgia from 1984 to 1991, was an established voice in environmental ethics
discourse, and had also published Philosophy of Technology (1984). The theme section consists
of five parts, “Technology and Environmental Ethics,” “Ethics versus Activism? An Exchange,”
“Technological Hazards, Economics, and Environmental Management,” “Technology and
Harvesting the Earth,” and “Technology and Nature: Struggle or Synthesis?”
The other primary volume of interest was the 1999 volume titled “Philosophies of the
Environment and Technology.” Published under the general editorship of Carl Mitcham, the
volume was guest edited by Marina Paola Banchetti, Don E. Marietta, Jr., and Lester Embree,
who were Florida Atlantic University professors at the time. Banchetti and Embree still teach at
FAU; Marietta, an Episcopal priest turned philosophy professor, died on 2006. The primary aim
of the volume, according Banchetti, is “examining the possibility, perhaps even the desirability,
of merging environmental philosophy with philosophy of technology.”34 While the two
specializations are not ignorant of the other, “participants in neither subdiscipline are anywhere
near being sufficiently prepared in the discussion and insights of the other.”35 According to
33 See the List of Abbreviations for the shorthand used for the different publications associated with the
Society for Philosophy and Technology. 34 Maria Banchetti, Introduction, RPT 18 (1999): 4. 35 Ibid., 4.
34
Banchetti, environmental ethics discourse is overly fixated on wilderness, which can be
counterbalanced by the attention to the built environment, its processes, and its consequences in
philosophy and technology. Philosophy of technology, on the contrary, often displays a “naïve
anthropocentrism” that underestimates ecological concerns.36 The volume did not build
permanent bridges over the deep faults between the specializations (or subdisciplines as she calls
them), and I submit that Banchetti’s diagnosis still holds: there still are not enough participants
who have robust knowledge in both specifications, and the volume failed to lead to significant
sustained dialogue between the specializations.
On the whole, articles published in RPT: Techné that dealt with nature in a
philosophically interesting way can be grouped into five constellations. Several articles focus on
the term nature from its origins in Greek times through the present. The second constellation
corresponds most closely with this dissertation, which focuses on intersection of nature and
technology. Contributors include notable environmental philosophers J. Baird Callicott, Holmes
Rolston, III, and Eric Katz, post-phenomenologist Don Ihde and Deweyan Larry Hickman, and
ecofeminist Karen Warren. Hickman’s effort to begin a dialogue with environmental
philosophers deserves special commendation, though it was not met with much of a response.
The third constellation consists of articles on some combination of science and technology and
nature. It can be divided into three groupings: one on nature and science, a second on Heidegger
and nature, which includes several articles that develop the thought of Albert Borgmann, and the
third on how novel technologies such as biotechnology and nanotechnology have led to
reconsidering how nature is conceptualized. The fourth constellation consists of two articles on
religion, which both follow the vein of Lynn White, Jr.’s connection between Western
36 Ibid., 5.
35
Christianity and Western technology. The fifth constellation consists of nature and technology in
politics and policy.
Nature Seen Historically
The first constellation of papers that can be discerned investigate the meaning of nature in
different historical periods. Wolfgang Schadewaldt recovered the original sense of the Greek
term, which differs from the Latin term and how nature is now used in contemporary speech, and
David E. Tabachnick looked back to Thucydides and Sophocles to see how the ancient Greeks
understood phusis and tuche (chance), which work together to frustrate technical projects while
in a surprising way enriching human existence. Klaus Michael Meyer-Abich advocated for a
return to the Greek and Roman understandings of nature. Douglas Groothuis applied Blaise
Pascal’s critique of the Enlightenment aims of scientific knowledge and technological progress
to Francis Bacon’s proposal for a new organon, and Jacques Ellul contrasted how primitive
technique freed humans from the demands of nature, but modern technique asserts its own
demands that are constraints. Gregor Schiemann offered a contemporary definition of nature,
“that which is not produced by human beings,” that depends on scientific knowledge to address
the issue of how to consider the products of nanotechnologies, which seem to be neither natural
nor artificial. Based on a literature survey, Jacob Klein explained seven dimensions of the term
nature, which can be mapped to human ritual. Gao Desheng and Zou Tsing provided a brief
summary of the relationship between humanity and nature in Chinese philosophy.
Wolfgang Schadewaldt explained that the universal sense of the term “nature” arises
from the Latin word natura, from the verb nasci, which means to be born.37 The word referred
to “the uterine orifice of a female quadruped,” the place where new beings come to be. Natura,
37 Wolfgang Schadewaldt, “The Concepts of Nature and Technique according to the Greeks, RPT 2 (1979):
159-171.
36
though, is an early translation of the Greek term phýsis. The Greek term never designated a set of
objects that is often meant by the term today.38 The root verb phýo, used chiefly in the botanical
and zoological realms, means “bring-forth,” “put forth,” or “make to grow.” The noun phýsis
works similarly in function to an English gerund, and it means “a coming-to-pass, an event, a
directing activity.”39 The comprehensive sense of the Greek term, which meant “the wholeness
and unity of form and motion, law and life, causality and purpose,”40 has splintered since Greek
concepts were rediscovered in Europe at the end of the medieval period. The ancient Greeks
understood techné as physis plus, a “coming-to-be” that requires imagination, design, and
production as preparatory steps to “perfect” nature by altering it to meet human needs.
David E. Tabachnick’s “Techné, Technology, and Tragedy” honed in on differences
between premodern and modern technology.41 Advocates of the latter tend to deny tragedy as “a
defining characteristic of human existence even in the technological age.” Premodern technics
accepts limitations of and lack of control expected in modern technologies, which can be seen by
investigating Thucydides’ The History of Peloponnesian War, in which chance (tuche) gains a
sort of agency through the workings of nature (phusis), subverting the aims of craft (techné). For
example, thunderstorms douse the arsonery of the Peloponnesians, and the plague that struck
Athens was introduced through attempts to conquer the Egyptians. Sophocles proposed that the
fourth stage of technical achievement, after humans have subordinated the earth and its animals,
the elements, and disease, is a confusion between good judgment and technical judgment, which
puts humans at risk again. Tabachnick followed Heidegger’s take on the tragedy of techné: “the
38 Ibid., 161-163. The closest Aristotle came to this sense of the term, according to Schadewaldt, is phýsis-
natura, which is undifferentiated primal matter, and as hóle phýsis, the entire visible cosmos. 39 Ibid., 160. 40 Ibid., 164. 41 David E. Tabachnick, “Techné, Technology, and Tragedy,” Techné: RPT 7, no. 3 (2004): 90-111.
37
technical imposition of order is the spur for the renewal of disorder,” which is counterintuitively
a good thing, because overcoming death, an apparent success, actually results in dehumanization.
Klaus Michael Meyer-Abich argued that a biocentric perspective is superior to one that
considers nature as that which can be dominated, through experiment or as resource.42 The
principle necessary for this shift can be found in Ernst Bloch, who seeks to reorient “nature”
from things (natura naturata) to the existing of those beings (natura naturans). Meyer-Abich
argued that “natural conditions prevail where something can grow by itself or is nonviolently
assisted to develop its inherent qualities. Natural, therefore, is not only what is not artificial–
indeed the artificial may be more natural than what has wildly grown–but not every technology
fulfills the criterion of being natural.”43
In “Bacon and Pascal on Mastery over Nature,” Douglas Groothuis contrasted Francis
Bacon’s advocacy of a new epistemology by which “nature could be deciphered, demystified,
and ultimately commanded to release humans from the iron grip of necessity” with Blaise
Pascal’s critique on the project of scientific and technological progress.44 Bacon’s stepwise
inductive method promised to free its practitioners from hasty leaps in reasoning and from
uncertainties associated with Aristotelian concepts of final causation and teleology that were
important to the Scholastics. In doing so, he transforms knowledge from contemplation or
recognition to a hut or discovery, to use Paolo Rossi’s phrases cited by Groothuis.
Though Pascal did not respond directly to Bacon, Groothuis redeploys Pascal, who
himself was a scientist and experimenter, in fact, one far more accomplished than Bacon, for that
purpose. Pascal’s first criticism of Bacon is that he does not heed his own exhortations against
42 Klaus Michael Meyer-Abich, “What Sort of Technology Permits the Language of Nature? Conditions for
Controlling Nature-Domination Constitutionally,” Philosophy and Technology. Boston Studies in the Philosophy of Science 80. P&T 1 (1983): 211-232.
43 Ibid., 230.
38
hubris in his project of expanding human knowledge. According to Pascal, “The secrets of
nature are hidden; though she is ever active, we do not always discover her doings. Time reveals
them from age to age and although nature constantly remains uniform, she is not uniformly
known,”45 and if this is right, Bacon’s comprehensive epistemic effort is doomed to fail. Pascal
also retained a sense of wonder at the expanse of the universe and at the miniscule within it.46
He wrote that it is as “impossible to know the parts without knowing the whole as to know the
whole without knowing the individual parts”47 due to the interconnectedness of nature, a holistic
sensitivity that anticipates the balance that many ecologists try to strike.
Jacques Ellul posited that the encroachment of technique leads to “a more extreme
evaluation of nature.”48 Yet this elevation of “nature” as a guiding principle for human behavior
is an anthropological mistake: humans are artificial beings that change their environment
through their work and gain their identities “over and against nature.”49 Because humans are
artificial, Ellul makes the dual claim that “nature is not a model, and nature is not a limitation on
human action,” though humans act “in a natural environment and in relation to it.”50 Humans
gained freedoms, i.e., the loosening of the bonds of the necessities of nature, through their
societies, in which knowledge, religion, art, and technique were developed. Modern technique,
however, reverses this relationship.
That is to say, we now have to consider that what used to be means to freedom has become a condition of slavery and what has always been the mechanism of necessity has become the occasion for a possible freedom. This is the main difficulty for ecology
44 Douglas Groothuis, “Bacon and Pascal on Mastery over Nature,” RPT 14 (1994): 191-203. 45 p. 196, from E. Cailliet and J.C. Blankenagel, Great Shorter Works of Pascal (Philadelphia: Westminster
Press, 1948), p. 46. Quoted in Wells, p. 59. 46 Pascal’s thought is also in contrast with René Descartes’s Discourse on Method, who argues for dividing
a thing into its parts for the sake of knowing it better. 47 Pascal, Pensees, fragment 199/72. 48 Jacques Ellul, “Nature, Technique and Artificiality,” RPT 3 (1980): 264. 49 Ibid., 267 (italics in original). 50 Ibid., 268, 277 (italics in original).
39
which should not be a romantic dream or a medieval pastoral, but which should be correctly thought in terms of a precise analysis of the technical world.51
A reinterpretation of ecology, the science most closely related to environmental ethics, provides
a germ for the fusion of philosophy, technology, and the environment that Banchetti had
requested. Unfortunately, Ellul does not provide more detail about his idea, which seems to
promote inquiry similar to what is found in Science and Technology Studies at the cost of
ignoring the natural context in which people act and how the organisms in that context behave at
different levels of human manipulation.52
Gregor Schiemann proposed that the term “nature” should be understood as “that which
is not produced by human beings” in “Nanotechnology and Nature: On Two Criteria for
Understanding Their Relationship.”53 Whereas Aristotle explains things that come about on their
own accord, in contrast to craft or chance, Schiemann’s definition is atemporal and experimental.
An object should be considered natural “if it is impossible with all scientific methods available at
a given time to detect that it was produced by human action; alternatively, an object is to be
defined as artificial if it can be scientifically demonstrated that it was produced by human
action.” His epistemic approach makes it possible that many objects can be considered neither
natural nor artificial, including some that are of artificial origin. He claims that at least at the
present, the inability of an object to adapt “attests to a human origin.”
From a literature survey of the many uses of the term nature, Jacob Klein identified seven
dimensions of the term that can be mapped to the dimensions of human ritual.54 The first is that
nature is horizontal, by which he means that “by nature” only makes sense in relation to
51 Ibid., 275. 52 I pursue this line of reasoning at some length in Chapter 5. 53 Gregor Schiemann, “Nanotechnology and Nature: On Two Criteria for Understanding Their
Relationship,” Hyle 11, no. 1 (2005): 77-96, http://www.hyle.org/journal/issues/11-1/schiemann.htm. 54 Jacob Klein, “The Concepts of Nature and Technique According to the Greeks,” RPT 2 (1979): 173-188.
40
something else. A person may be evil by nature, but the qualification implies an alternative. The
second sense of the term is rivalry, such as the distinction between supernatural or revolutionary
events and those that regularly occur. Klein described an inward sense of nature, which means
that a being must maintain its stable identity (or be itself) while simultaneously changing (or
coming to be).
Humans also have a vertical relationship with nature, in that its behavior can be
explained by laws that can be explained through mathematical principles. Klein calls this the
“submission of nature to mathematically formulated principles.”55 He emphasizes the difference
between the laws of nature, mentioned previously, and the law of nature, which has a moral
sense that is inherent and can be revealed by reason and reflection. The law of nature was often
understood, at least in the 17th century, “as reflecting the inviolable mathematical principles of
nature.”56 The moral sense is opposed with the passionate sense, which operates at least
somewhat independently of and often contrary to the faculty of reason. The last sense Klein
identifies is the relationship of detached nearness. Experience of the grandeur of nature can be
sublime, which can “shake our detachment and transform it into the feeling of our minuteness
and insignificance.”57
In “Philosophy of Technology in China,” Gao Dasheng and Zou Tsing note that Chen
Changshu and Yuan Deyu both distinguish artificial nature and natural nature.58 The relationship
between humanity and nature is one that should be coordinated (Bian Chunyuan); seen
evolutionary (Hua Daming and Hua Liguang), from coordination, to human domination, to a new
coordinated equilibrium. Technology has been argued to be a dynamic force that dominates
55 Ibid., 181. 56 Ibid., 184. 57 Ibid., 186.
41
nature (Liu Zeyuan), which demands an approach that accounts for material and intellectual
production, as well as social construction.
At the Intersection of Nature and Techné
A second constellation can be divined from papers that are based on a philosophical
approach to the intersection between physis and techné. J. Baird Callicott contributed two
articles that sketch out how technology will likely change based on recent advances in ecology.
Holmes Rolston, III, argued that arguments that claim nature has now become part of culture
confuse epistemological dependency with ontological dependency. Don Ihde proposed a critical
realism as a “third way” between the dystopian future imagined by many environmentalists and
the utopian future imagined by advocates of technology. Larry A. Hickman took a Deweyian
pragramatist approach in arguing that nature can be valued in the immediacy of the moment, i.e.,
unreflectively, and reflectively, which is technological to the extent that it depends on judgment
and techniques, understood broadly. In the same paper, Hickman also interrogated the ideas of
Callicott, Bryan Norton, Michael Zimmerman, and Rolston. In an earlier paper, Hickman
explained Dewey’s understanding of the relationship between nature and machine technology.
Karen Warren situated ecofeminism at the intersection of feminism; science, technology, and
development; and environmental concerns, arguing that they should be necessarily intertwined.
T. Maarten T. Coolen developed a notion of philosophical anthropology in which humanity is
realized, in part, through their technology. Herbert Simon connected the artificial and the natural
in the human brain, according to Sytse Strijbos.
RPT also published a group of papers from the 1994 Central Division American
Philosophical Association author meets critics session on David Rothenberg’s Hand’s End:
58 Gao Dasheng and Zou Tsing, "Philosophy of Technology in China,” Philosophy and Technology:
Practical, Historical, and Other Dimensions. P&T 6 (1989): 133-151.
42
Technology and the Limits of Nature. Dwight Furrow proposed that the ethical claims of nature
are stronger than just discovering the limits of ecosystem manipulation that would lead to
fundamental alteration of their functions. David Abram argued that Rothenberg always had
portrayed nature as passive, which understates its interventions in human existence. David
Lovekin argued that two forgotten characteristics of good design, ingenio and fantasia, can be
rediscovered by looking at the drawings of sixteenth century engineer Agostino Ramelli.
Callicott argued that the reified dichotomy between nature and humans, a baneful and
unhelpful artifact based on Western philosophical, religious, and political history, has
exacerbated the mechanistic tendencies of the modern period.59 Such tendencies have led to or
worsened many of the environmental issues faced today. Fortunately, the postmodern “model of
nature” is organismic, which promotes concern for the “health” of an ecosystem which can be
determined by “objective and intrinsic” ecological indices using hierarchy theory.60 Mechanistic
technology, Callicott argued, will give way to appropriate technology, such as the embrace of
solar power by some of his friends and a 1989 National Academy of Sciences Board on
Agriculture recommendation of organic, smaller-scale farming techniques, that is attuned to the
“holistic, systematic, dynamic concept of nature.”61
Six years later, Callicott addressed the question of “After the Industrial Paradigm,
What?”62 He argued that since our social relations follow our conception of nature, as
materialistic and individualistic modernity recedes into the rearview mirror, the interrelationships
that are the topic of inquiry for environmental studies will become increasingly important.
59 J. Baird Callicott, “The Role of Technology in the Evolving Concept of Nature,” RPT 13 (1993): 201-
222. 60 Ibid., 209. 61 Ibid., 215. Callicott limits his expertise, perhaps too much for us to take him seriously, by saying that
“the furthest thing from any expertise that I may have is alternative technology design. The next furthest thing from my ken is an analysis of the economic, social, and political obstacles to alternative technology development and how to overcome them” (211). Instead, he offered historical insight into the affects of changing scientific paradigms.
43
Mechanical industries, Callicott, reasons, will give way to “electronic state systems,” those that
connect us to each other, which will have less environmental impact.
Rolston’s essay “A Managed Earth and the End of Nature?” argued that wilderness has
clearly ceded ground to managed land, but to understand “the End of Nature” to be its cessation
is an overstatement of its demise.63 To say that nature is part of culture is to confuse
epistemological dependency with ontological dependency. Nature always asserts its
independence. In Rolston’s words, “Nature contains entropic forces that tear down high
negentropic structures, unless these are constantly maintained by an informed energy content.”64
Man’s body and his artifacts both decay.
Rolston roughly equated the urban with the political as a place where “the contributions
of spontaneous nature are no longer evident in the criteria of evaluation,” one that is artifactual
and the technological.65 He identified a “symbiosis zone” that results from the overlap of urban
areas and those that are predominantly natural as an important area that deserves further study,
writing “much of life does take place in the symbiotic zone, and there we need an adequate
theory lest our practices go astray.”66 Yet such an analysis seems to deserve a far more
sophisticated understanding of the artifactual, which seem to be situated on a spectrum—perhaps
using Borgmann’s distinction between real and hyperreal—just as Rolston does with the natural.
In “Phil-Tech Meets Eco-Phil: The Environment,” Ihde claimed that overly optimistic
accounts of technology often made by its proponents are paralleled by dystopian critiques of
technology common to environmentalists are exaggerations that need to be replaced by a
62 Callicott, “After the Industrial Paradigm, What?” RPT 18 (1999), 13-26. 63 Holmes Rolston, III, “A Managed Earth and the End of Nature?” RPT 18 (1999): 143-164. 64 Ibid., 161. 65 Ibid., 158. 66 Ibid., 159.
44
“critical realism.”67 The upshot of such a realism is that environmental concerns are considered
in the design of new technologies, rather than as externalities to other fields.
Hickman’s “Green Pragmatism: Reals without Realism, Ideals without Idealism” made
the most headway toward working between the specializations.68 Hickman, a Dewey scholar
whose expertise is in philosophy and technology, attempts to use Dewey’s epistemological
constructs to illuminate the complexities involved with intrinsic value that garnered significant
attention in environmental ethics over the preceding twenty years. According to Hickman,
Dewey claims “inquiry is thus a technological enterprise because it involves techniques: it
involves the invention, development, and deliberate use of tools and other artifacts (such as rules
of inference) brought to bear on raw materials (such as data) and intermediate stock parts (such
as the results of previous inquiries) to resolve and reconstruct situations which are perceived as
problematic.”69 The highest level of inquiry, a “criticism of criticisms,” allows one to
distinguish nature from culture. According to Hickman’s Deweyan epistemological construct,
nature can be valued qua nature in the moment, i.e., when it is done unreflectively. But after
deliberation, nature can be said to be valuable, a claim influenced by culture that requires
judgment.
Hickman compared his interpretations of Dewey’s thought to the writings of Callicott,
Bryan Norton, Michael Zimmerman, and Rolston. If one combines Callicott’s distinction
between the source of value and its locus and Norton’s distinction between felt and considered
preferences—the former are unreflective while the latter depend on judgment—one approaches
Dewey’s theory of valuation, Hickman argued. According to Norton’s terminology, Dewey is a
67 Don Ihde, “Phil-Tech Meets Eco-Phil: The Environment,” RPT 18 (1999): 27-38. 68 Larry A. Hickman, “Green Pragmatism: Reals without Realism, Ideals without Idealism,” RPT 18
(1999): 39-56. 69 Hickman, “Green Pragmatism,” 43.
45
weak anthropocentrist.70 Dewey “thought that both human life and its wider context, nonhuman
nature, are unintelligible without the recognition that it is only with the advent of reflective
consciousness that nature comes to have deliberate preferences. It is only with the advent of
reflective consciousness that nature comes to have ‘a mind of its own.’”71
Hickman contrasts Dewey’s kindred spirits Callicott and Norton with Zimmerman and
Rolston, whose value theories deserve the same rebuke Dewey gave “idealists” in a 1909 essay
called “Is Nature Good? A Conversation.” Zimmerman’s advocacy of panentheism is meant to
result in a “nondualistic awareness” that can reveal our cognitive constructions,72 which
Hickman charges simply replaces subject/object dualism with covert dualism between cognitive
and non-cognitive elements of human thought. Rolston’s “idealistic strategy” inverts Hickman’s
value scheme by calling as valuable that which cannot be secured, that which is primitive and
originary. For Rolston, a thing must be valuable to be valued. The act of securing, central to
Hickman’s pragmatist understanding, may actually destroy value by shifting it to the human
realm.
In the end analysis, Hickman seemed more interested in claiming that Dewey’s thought is
sufficient for environmental philosophy and more comprehensive than any other philosopher of
technology.73 While Hickman’s contribution deserves commendation for comparing
environmental philosophy to pragmatist philosophy, his allegiance to Dewey prevents it from
70 Norton, “Environmental Ethics and Weak Anthropocentrism,” EE 6, no. 2 (Summer 1984): 134, doi:
10.5840/enviroethics19846233. Norton says a “value theory is strongly anthropocentric if all value countenanced by it is explained by reference to satisfactions of felt preferences of human individuals. A value theory is weakly anthropocentric if all value countenanced by it is explained by reference to satisfaction of some felt preference of a human individual or by reference to its bearing upon the ideals which exist as elements in a world view essential to determinations of considered preferences.” (Italics in original.)
71 Hickman, “Green Pragmatism,” 49 (italics in original). 72 Ibid., 51. 73 Hickman, “Green Pragmatism,” 55. According to Hickman, “Dewey is, to my knowledge, the only
philosopher to have advanced a critique of technology as part of a broad-front philosophical program, including social and political philosophy, educational philosophy, ethics, and logic or the theory of inquiry. No other
46
being more constructive, which would have required Hickman to be more circumspective, e.g.,
to understand Dewey in Rolston’s framework to plumb Dewey’s possible shortcomings, instead
of using Dewey as the standard.
Hickman had relayed Dewey’s understanding of the proper relationship between humans
and non-humans ten years earlier.74 Dewey thought that the conception of the world as machine
that had gained popularity in the modern period led to three possible perspectives, even as he had
thought it should be considered an organism. “A machine can be contemplated as something
finished, and its workings discovered and admired. Further, it can be examined as something
complete but in needs of occasional repair. Or it can interacted with as something ongoing,
unstable and provisional, as a tool which is utilized for enlarging transactions of self and society
with environing conditions.”75 The third perspective yields a “genuine transaction with nature,
awareness of such transaction, and inclusion of that awareness in the metatheories of science.”76
According to Hickman, “Dewey wanted to locate technology in a realm that is neither
supernatural or extranatural, an organic realm in which the only telic elements are those of the
natural ends of objects, individuals, and events, all of which may be utilized as means to further
ends.”77
Warren’s “Women, Nature, and Technology: An Ecofeminist Philosophical Perspective”
situated ecofeminism at the intersection of feminism; science, technology, and development; and
environmental concerns.78 She defined feminist analysis is “the lens through which the
philosopher of technology, so far as I know, has done this. Heidegger’s work notoriously lacked a coherent social philosophy, and it exhibited no philosophy of education.”
74 Larry A. Hickman, "Doing and Making in a Democracy: Dewey's Experience of Technology,” Philosophy and Technology: Practical, Historical, and Other Dimensions. P&T 6 (1989): 97-111.
75 Ibid., 102. 76 Ibid., 102. 77 Ibid., 104. 78 Karen Warren, “Women, Nature, and Technology: An Ecofeminist Philosophical Perspective,” RPT 13
(1993): 13-29.
47
discussion and analysis takes place,” on that “is self-consciously both sex-gendered and opposed
to male gender bias,”79 and feminist issues as those that affect the lives and work of women.
Feminism is inadequate if it fails to consider issues of science, technology, and development and
those of the environment. Likewise, studies of science, technology, and development and of the
environment are inadequate if they do not include feminist analysis that can identify oppressive
hierarchical conceptual frameworks. Warren concluded that for technology to be good it must (i)
be appropriate and local; (ii) be appropriate for women, i.e., that does not lead to their continued
inferiority; (iii) not shift control to men in its implementation; (iv) be collaborative and cross-
cultural, rather than expert-driven; (v) “environmentally sound”; and (vi) not arise from
“patriarchal conceptual frameworks.”80
According to Katz, the most serious flaw of Carl Mitcham’s Thinking through
Technology: The Path between Engineering and Philosophy is that “Mitcham’s analysis of the
structure and meaning of technology does not escape a fundamental technological orientation.”81
Its anthropocentrism precludes giving environmental ethics its due, and environmental ethics
ends up as a subset of philosophy of technology because Mitcham understands it as a kind of
applied ethics. His approach also excludes “modes of thought outside the technological
paradigm—such as poetry, literature, and myth”– and the aims of both ancient technology
(“cultivation” of nature and human dimensions) and modern technology (“construction” of both
dimensions) are always anthropocentric, activities “guided by human ends and interests.”82 In
his response “On Never Being Through Thinking Through Technology,” Mitcham states that he
found Katz’s critique troubling and proposes that a more historical study of technological
79 Ibid., 15 (italics in original). 80 Ibid., 25. 81 Eric Katz, “The Place of Nature in the Understanding of Technology: One Critical Reading of Thinking
through Technology,” RPT 16 (1997): 171-178.
48
artifacts that properly appreciates causa instrumentalis as its foundation may allow space for
nature to retain or regain its otherness.83
In “Philosophical Anthropology and the Problem of Responsibility in Technology,” T.
Maarten T. Coolen developed a notion of ethical responsibility based on a philosophical
anthropology that adequately accounts for the concept of responsibility.84 Coolen argued that
humans are technological beings. He wrote “It belongs to human self-expression, to human
autonomy, to transform nature with the aid of technology. To give up the technical
transformation of nature would be to give up being human. Therefore, the environmental
problem is a necessary counterpart of the sort of being which must transform what is outside
itself in order to be able to realize itself.”85 What is necessary, he claimed, was a relationship
between humans and nature that values nature instrumentally as well as intrinsically.
In an article focused on Herbert Simon’s understanding of the relation between humans
and computers, Strijbos charted Simon’s conception of the relation of the artificial and the
natural.86 The former includes all of human culture, while the latter is partly human and partly
non-human. The two realms are connected through the human brain, and artifacts and natural
objects both obey natural laws, though artifacts “derive their identity from the human purposes
which they embody.”87 The other connection between the natural and artificial is what he called
“synthesis,” design or composing, which transforms nature into artifact.88 In artifacts, unlike
natural things, the function, inner environment, and outer environment are related.
82 Ibid., 174, 177. 83 Carl Mitcham, “On Never Being through Thinking through Technology,” RPT 16 (1997): 179-182. 84 T. Maarten T. Coolen, "Philosophical Anthropology and the Problem of Responsibility in Technology,”
Technology and Responsibility. P&T 3 (1987): 41-65. 85 Ibid., 61-62. 86 Sytse Strijbos, "Computer and World Picture: A Critical Appraisal of Herbert A. Simondon,” Broad and
Narrow Interpretations of Philosophy of Technology. P&T 7 (1990): 67-86. 87 Ibid., 70. 88 Ibid., 71.
49
Techné: RPT also published papers and a transcript from the 1994 Central Division
American Philosophical Association author meets critics session on Rothenberg’s Hand’s End:
Technology and the Limits of Nature. Having translated Arne Naess’s Ecology, Community and
Lifestyle, Rothenberg was a respected voice in the environmental community. In Hand’s End, he
sought to find boundaries in nature for the spiraling effects of technological innovation, which
satisfies some desires and stimulates others, while inducing unintended consequences in their
use. Nature is best considered as a “home” for humans, where legitimate interests of humans and
non-humans coincide. Moral boundaries can be found when humans leave the confines of
“home,” which leads to drastic and sometimes irreversible consequences, such as nuclear war
and global warming. Conceptualizing nature as “other” or wilderness fails because the human
perspective is anthropocentric by definition, and our experience and understanding of nature
depends on technological innovations. The critics in the panel were Furrow, Abram, and
Lovekin.
Furrow critiqued the claim that the limits of nature, which can only be discovered when
they are transcended, are helpful for making moral decisions about technology.89 He pointed out
that “our technically-inspired actions come too soon to anticipate their consequences yet too late
to do anything about their effects.”90 Furrow had no truck with either of Rothenberg’s proposed
solutions, to recover a Kantian sense of the sublime and to develop technologies that highlight
unique qualitative experiences, but he doubted they would change the breakneck pace of
technological innovation. More problematically, Furrow thought it is impossible to understand
the interests of nature from within Rothenberg’s integrated conception, and the sublime should
be understood by Lyotard’s postmodern conception: “the sublime no longer functions as a
89 Dwight Furrow, “The Discomforts of Home: Nature and Technology in Hand’s End,” RPT 15 (1995):
169-175.
50
regulative ideal but simply makes reference to the impossibility of presenting the
unpresentable—an invocation of the impossibility of knowledge, not a glimpse of nature’s
internal limit.”91 Furrow thought that the otherness of nature should be conserved, that the
guiding direction for technology is that nothing should “reduce the sense of enormity, of
incomprehension, and unfamiliarity in our confrontation with nature.”92
Using Marshall McLuhan’s terms, Abram described Hand’s End as a “cool book” that
has gaps that provoke active participation from the reader, but what he finds surprising is that
nature is always presented as passive, as bereft of non-human agencies and intentions.93 Nature
becomes “our context,”94 a term which Abram pointed out arises in the use of technologies for
writing. It is literally the words around the term. But in earlier hunter-gatherer periods, where
tribes took on animals symbolically, “human culture does not so much project itself, or its
engagements onto the natural world, but rather introjects onto itself the perceivable patterns of
the natural terrain, taking nonhuman nature as the metaphor and model for its own activities.”95
Lovekin proposed that the right boundaries for technology can be found by looking at the
premodern drawings of Agostino Ramelli, the sixteenth century engineer to the king of France
and Poland.96 Ramelli drew unique machines that emphasized aesthetics, both in design, where
it may come at the price of efficiency, and in decoration, with many ornate drawings, and
encouraged community development. These designs evoked “ingenio and fantasia,” two human
states that escape the dominant understanding of technology as efficiency.97
90 Ibid., 171. 91 Ibid., 174. 92 Ibid., 175. 93 David Abram, “Nature at Arm’s Length,” RPT 15 (1995): 177-180. 94 Ibid., 179. 95 Ibid., 179. 96 David Lovekin, “Rothenberg, Ramelli, and Heidegger: Considerations of Otherness,” RPT 15 (1995):
181-190. 97 Ibid., 190.
51
Three articles addressed the artefactualizing of nature, its morality, and reverting to a
more “natural” state through restoration or other interventions. Even though he recognized that
ecosystems are in dynamic equilibrium, Mario Bunge argued that human effects should still be
minimized. J. A. Doeleman argued that economics is the proper analysis to determine whether
technological advances should be constrained to conserve nature or technological advances
should be employed to replace its functions. Eric Katz argued that restoration, a step that would
rarely make sense in Doeleman’s framework, is nothing more than a technological fix.
Mario Bunge identified the biological as well as the economic, political, and cultural as
four subsystems in human society.98 Organisms are open systems that are “entropic towards the
environment and inwardly negentropic.”99 His understanding of an ecosystem is that it is in
dynamic equilibrium, one that is constantly evolving. He saw the human role is one that should
have minimal environmental impact, except after droughts and floods, when some organisms
endanger the survival of others and when consumption by some animals leads to starvation of
others. Use of non-renewable natural resources should be prohibited, as should development that
comes at the expense of future generations.
J. A. Doeleman argued that technologies primarily consume nature, and, in response,
other technologies are developed to “save” nature, for example, through pollution abatement and
conservation management.100 But the scale of human intervention has led to the development of
“nature-replacement technology,” which “competes with nature-saving technology,” and the
“preferred” choice should be made using tools of economics.101 Replacement technologies, such
as aquaculture, will likely be preferred because (a) conservation is contrary to growth, which
98 Mario Bunge, "Development and the Environment,” Technological Transformation: Contextual and
Conceptual Implications. P&T 5 (1999): 285-304. 99 Ibid., 289. 100 J. A. Doeleman, “Environment and Technology: Speculating on the Long Run,” RPT 12 (1992): 5-32.
52
shows no signs of abating; (b) nature conservation entails prohibitive economic and opportunity
costs; and (c) embrace of nature-replacement tends to reinforce its preference.
In the last part of the 1992 theme section, Katz argued that ethical arguments for
ecosystem restoration of nature as “restitutive justice,” such as those given by Paul Taylor or
Peter Wenz, are just another instance of an anthropocentric “technological fix,” this time
concealed in environmental concern.102 The section also included Eric Higgs’s essay, largely
based on a report on the activities of the Environment and Technology project, “Musings at the
Confluence of the Rivers of Techné and Oikos.”103 Interestingly and without explanation, Higgs
contrasted technology with environment, understood as cultural and ecological surroundings. He
argues that the joint inquiry of technological power and environmental consequences is
characterized by “patent incompleteness” and urges individual scholarship and formation of
working groups.104
Science, Technoscience, and Nature
The “Science, Technoscience, and Nature” constellation consists of three groups of papers,
“Science and Nature,” “Heidegger,” and “Novel Technologies.”
Science and Nature. Several articles described how nature and its study can or should change
the practice of science. John F. Post argued that reenchantment of nature can and should be
accomplished first by accepting “minimal physicalist theses” as foundational, which can be
augmented with values discerned from nonreductive determination, and then the divine can be
reintroduced, once the subject-predicate literalism in theology is overcome. Steven Vogel’s
criticism of the attempts of Herbert Marcuse and Jürgen Habermas to overcome a subject-object
101 Ibid., 13. 102 Eric Katz, “The Big Lie: Human Restoration of Nature,” RPT 12 (1992): 231-241. 103 Eric Higgs, “Musings at the Confluence of the Rivers Techné and Oikos,” RPT 12 (1992): 243-258. 104 Ibid., 255.
53
divide between humans and nature led him to argue for a science that can contribute to human
liberation. In a sweeping essay, Raphael Sassower argued that, while often thought as opposites,
Francis Bacon and Donna Haraway understand nature in a similar way, one that is coherent with
the demands of ecology. Donald Beggs highlighted the importance of interdisciplinarity in a
critique of Robert V. Bartlett’s understanding of ecological rationality. Albert A. Anderson
argued that Callicott unnecessarily and undesirably diminished reason when he accepted Hume’s
distinction between analytic and synthetic judgments, which, as Plato thought, are integrated.
Post proposed that attempts to reintroduce enchantment into the objectivist worldview of
modern science should start from its minimal physicalist theses.105 Post had previously argued
that these theses are “(i) every entity whatever is a mathematical-physical entity; (ii) there can be
no difference between things without some mathematical-physical difference between them; and
(iii) all truth whatever in the sciences or beyond, is determined by truths at the level of
mathematical physics.”106 The path toward reenchantment proceeds first by recognizing that this
foundation is “entirely congenial to holistic thinking,”107 and that the foundation is correct but
not complete. Values, stricken from the discourse in the seventeenth century, can be regained
through nonreductive determination, which means “purely descriptive or natural facts about the
world (including us) might nonreductively determine which of our value judgments are true.”108
Post interpreted this in a strong sense, in which objective value means that “there is one and only
one correct distribution” of value judgments, and in a weak sense, in which “the natural
properties of people and things, in conjunction with the normative principles one happens to
105 John F. Post, “On Reenchanting the World,” RPT 10 (1990): 243-279. 106 Ibid., 248. 107 Ibid., 249. 108 Ibid., 253.
54
hold, determine one and only one distribution of truth-values over the value judgments.”109 Post
argued that “normative imperatives are grounded in nonnormative fact, in the sense of
determination, even if such grounding by itself enables no one to formulate or derive the
imperatives from any indicatives,” and from this basis intrinsic value can be said to arise from a
reunified understanding of value and nature.110 Two other steps are necessary for reenchantment
of nature. First, it can be recovered by understanding “moods, emotions, desires, and passions”
as descriptions that “roughly are like that for an appropriate human in appropriate conditions,”
thereby retaining the nonreductive physicalism and what are normally considered to be
subjectivist judgments.111 Second, divine immanence can be recovered by breaking “subject-
predicate literalism in theology,” which eliminates the problem of trying to recognize a
supernatural being in a physicalist frame, but at the cost of assigning any causation to beings that
cannot be said to exist.112
In “New Science, New Nature: The Habermas-Marcuse Debate Revisited,” Vogel argued
that neither of the two debaters hold a philosophy that is coherent with respect to science and
nature.113 Herbert Marcuse took up the Frankfurt School criticism of science as a domination of
nature. Along these lines, revolutionary science must free both humans and nature of
domination: both must be subjects, not objects to be manipulated. Jürgen Habermas claimed
that the extension of methods of natural science to the social realm was flawed because it
confuses two human interests, which Vogel articulated as “prediction and control of nature (the
‘technical’ interest) and in the achievement of mutual understanding on the basis of undistorted
109 Ibid., 254 (italics in original). He is offering an alternative to Mackie’s argument from queerness. 110 Ibid., 261. 111 Ibid., 264. 112 Ibid., 272. 113 Steven Vogel, “New Science, New Nature: The Habermas-Marcuse Debate Revisited,” RPT 11 (1991):
157-178.
55
communication (the ‘communicative’ interest),”114 whose possibility depends on an unjustified
split between human nature and nature as the subject of inquiry. He says “at no level do we have
access to some ‘nature in itself’ independent of human activity; nature is rather always
something we constitute through our social practices—through our ‘work’ (which is inseparable
from the social structures that organize it) and through our ‘interaction’ (which is inseparable
from the processes of material production and reproduction that condition it).”115 In Vogel’s
assessment, neither Marcuse nor Habermas is able “to assimilate conclusions about the active
character of our relations with nature to his prior commitment to a ‘materialism’ that sees nature
as independent of the human, and the result in each case is conceptual failure.”116 What is
necessary is to ignore impossible aims of a “pure description of an external reality” and instead
construct a “science [that] would finally know itself to be social, to be historical, to be
‘interested,’ and hence would know its own connection to the world it helps create.”117 In this
way, science can function as an instrument of human liberation.
In "Intellectual Responsibility for an Ecology Agenda," Raphael Sassower argued that the
conditions that will improve ecological well-being are the adoption of a critical approach to
technology informed by the history of ideas, commitment to social ideals, and the desire for a
better future.118 He linked the thoughts of Donna Haraway with those of Francis Bacon,
considering them as two people who both argue that technoscience and nature are "two
interrelated concepts that draw their definitions from each other since neither has logical or
historical primacy." Bacon said that "Man, being the servant and interpreter of Nature, can do
114 Ibid., 162. 115 Ibid., 169. 116 Ibid., 158. 117 Ibid., 174. 118 Raphael Sassower, “Intellectual Responsibility for an Ecology Agenda,” JSPT 1, no. 1/2 (Fall 1995):
74-82, doi: 10.5840/techne199511/214.
56
and understand so much and so much only as he has observed in fact or in thought of the course
of nature...Nature to be commanded must be obeyed," which Sassower called a realist approach
to the relationship between technoscience and nature that parallels Haraway's constructivist
perspective. In a similar way, by proposing cyborgs, Haraway sought to collapse the split
between humans and their environment: "nature cannot pre-exist its construction, its articulation
in heterogeneous social encounters, where all of the actors are not human and all humans are not
'us,' however defined."119
For Beggs, interdisciplinarity is a necessary part of ecological rationality.
Interdisciplinary work involves “more than one discipline to create locally coherent outcomes
that are sustained and substantial.”120 He analyzed Robert V. Bartlett’s articulation of
substantive and functional moments of ecological rationality, where the former “attempts to
maximize goods given a plurality of goals” and the latter “discovers technical means” to achieve
a single goal. Bartlett’s schema fails with regards to substantive ecological rationality because
he accepts models of rationality from policy studies, thus retaining a multidisciplinary
perspective, rather than allowing the substantive moment to arise from ecological studies and
problems. It fails with respect to functional ecological rationality because it erringly assumes
that ecological rationality is more fundamental than economic, political, or social rationality.
Anderson argued in "Prometheus Suffers: Technology and the Ecological Crisis" that
Callicott, who follows David Hume's understanding of the Is-Ought dilemma, wrongly accepted
the analytic/synthetic distinction, which led to an impoverished view of reason.121 In In Defense
119 Haraway, Donna J. “Otherworldly Conversations; Terran Topics; Local Terms,” Science as Culture 3,
no. 1 (1992): 64-98, as quoted in Sassower, “Intellectual Responsibility.” 120 Donald Beggs, “The Interdisciplinary Constraint on Ecological Reason,” JSPT 2, no. 3/4 (Spring-
Summer 1997): 140-144, doi: 10.5840/techne199723/418. 121 Albert A. Anderson, “Why Prometheus Suffers: Technology and the Ecological Crisis,” JSPT 1, no. 1/2
(Fall 1995): 28-36, doi: 10.5840/techne199511/28.
57
of the Land Ethic, Callicott argued that ethics must historically precede rationality, which arises
recently in evolutionary history relative to sociality. According to Anderson, Hume’s distinction
is inferior to Plato’s integration. Plato rightly thought of reason as a dialectic of "these processes
of division and bringing together, as aids to speech and thought.”122 Anderson said "Knowing
cannot be separated either from reason or from experience. Knowing, reasoning, and
experiencing are grounded in being and goodness." The measure of goodness, according to
Plato, arises from a receptivity to the natural forms of things, and the key corrective is to expand
technical expertise to include "politike techne, the art required for human beings who naturally
live in cities."
Heidegger. Development of Martin Heidegger’s philosophy, especially through the work of
Albert Borgmann, provided the departure point for several more philosophical articles on
science, technology, and nature. Wolfgang Schirmacher thought that ecology needs to be
grounded on “eco-sophia,” which accounts for that which remains concealed. Don Ihde
critiqued Heidegger for discounting imaging tools as reductions without recognizing that they
give a better understanding of the world, and without which Heideggerian hermeneutics cannot
assess whether a greenhouse gas effect exists. David Strong contributed three articles. In the
first, he argued that any adequate environmental ethic must recognize that a technology replaces
just one dimension of a multidimensional object, while attempting to control the object or the
event to put it to human use. In the second, he criticized environmental ethicists, especially
Rolston, for depending too much on methodical science for discovery, for understating the value
of technology, and for neglecting the reduction of rich phenomena of existence caused by the
scientific lens. In the third, Strong identified patience and openness as the qualities needed to
122 Plato, Phaedrus, translated by W. R. M. Lamb (Cambridge, MA: Harvard University Press, 1967), 266b,
as quoted by Anderson.
58
recognize the sometimes blurry boundary of wilderness and technology. Lastly, Andrew Light
criticized Borgmann’s continuum between reality and hyperreality.
In Eco-Sophia, Schirmacher credited Heidegger’s ontological critique for “ecological re-
thinking” that is necessary for a wholesale shift in our way of being in the world.123 Schirmacher
thought that better ecology, as guided by modern science, will lead us to a more destructive
future. An attempt to identify with nature is folly, for humans are artificial. What is needed is
“Eco-Sophia,” which “takes seriously precisely that which is concealed, the nascent human
being, still, and perhaps always, in concealedness.”124 Paradoxically, the improvement of
computers, wherein computers take on the instrumental tasks and goals that are characteristic of
a world driven by technological thinking, results in the possibility of a nonanthropocentric ethics
that does not privilege humans.
In “Whole Earth Measurements,” Ihde argued that neither Husserlian phenomenology nor
Heideggerian hermeneutics as stated have the tools to address the question of whether a
Greenhouse Effect exists.125 Husserlian phenomenology needs to supplemented with the concept
of “technoscience as a thoroughly technologically embodied science” to explain how
measurements of gases imperceptible to an unaided human are mediated, indirect observations
rather than the mathematized, abstract shapes of which Husserl was skeptical. Heideggerian
hermeneutics lacks “Earth-as-Planet as a necessary presupposition for dealing with whole earth
measurements,” of which Heidegger was critical because images are pictures and, thus,
reductions. Ihde argues that imaging technologies as they are used in science permit a “look
through the image.” After hermeneutic interpretation, the images and their amplifications
123 Wolfgang Schirmacher, “Eco-Sophia,” RPT 9 (1989): 125-134. 124 Ibid., 130. 125 Don Ihde, “Whole Earth Measurements,” JSPT 2, no. 2 (Winter 1996): 91-98, doi:
10.5840/techne19972229.
59
formed by technoscience, itself already constructive, yield a better understanding of the world
than one can gain from modern epistemology.
Strong contributed three articles relevant to this inquiry in successive years that develop
the importance of nature as a counterforce to technology. In the first, he argued that the escape
from technological entrapment comes through refocusing on ontological concerns.126 Otherwise,
environmental ethics is always at risk of subversion by technological consciousness. A “bi-
centric” way of being in the world, in which human self-realization is paired with a “‘letting be’”
of things allows us to recognize focal things that “gather and assemble a world.”127 Strong
argued “a philosophy of environmental ethics must also be a philosophy of technology,” and this
is where environmental ethicists fall short.128 Rolston, whom Strong called “currently the most
comprehensible and sensible philosopher in environmental ethics,”129 articulated a conception of
environmental ethics that begins with discovery130 that also attends to human needs. Strong
criticized Rolston for overemphasizing the role of science, especially biology and ecology, in
discovery131; for understating the importance of technology, which is valuable to the extent that
it satisfies basic human needs but not for vanity, status, and other human desires, or, as Strong
put it, what is often considered “the character of the good life in a technological society”;132 and
for not noticing the impossibility of recognizing the Heideggerian fourfold of earth, sky, mortals,
and divinity in commodities or in nature when viewed through a scientific lens. Strong saw deep
126 David Strong, “The Technological Subversion of Environmental Ethics,” RPT 12 (1992): 33-66. 127 Ibid., 35. 128 Ibid., 44. 129 Ibid., 34. 130 Ibid., 46. Strong uses Rolston’s words, “What is ethically puzzling, and exciting, in the marriage and
mutual transformation of ecological description and evaluation is that here an ought is not so much derived from an is as discovered simultaneously with it,” from Rolston, Environmental Ethics (Philadelphia: Temple University Press, 1988), 2.
131 Strong wrote “To be let be biologically is not yet to be fully let be” (51), and the search for universal ethics grounded on science through aesthetics to necessarily reject what Strong calls “orienting beauty.”
132 Ibid., 50.
60
ecologists, who generally work from inclinations to values, as kindred spirits, yet he says they
rarely voice an adequate explanation of what is wrong with technological domination–which can
be found by Heidegger and Borgmann–and they appeal to a formal approach to realization that
Strong thought was doomed to fail.
Strong’s “The Implications for Nature of Borgmann’s Theory of Technology” follows
Borgmann’s critique that technology promises easier, faster, ubiquitous, and safer living, but that
it does not satisfy human desires for freedom and enrichment.133 Technology subverts by
presenting an object that satisfies one aspect of a multidimensional thing as a replacement—
Coolwhip instead of whipped cream—by serving as the de facto cultural standard, which
replaces excellence with progress, especially material progress, and by transforming natural
events and objects into devices to be controlled and utilized. Recognizing the effects of
technology is a prerequisite to any successful environmental ethic.
In “Challenging Technology,” Strong argued that, freed from the demands and ultimately
unsatisfying pleasures of consumption, natural and cultural things deserve precedence.134 Unlike
devices, cultural and natural things make “demanding claims” that require attention and
respect.135 Following Kant, Strong thinks that with proper cultural training humans can
experience the “overwhelming might in nature” as sublime and not terrible.136 The cultural
training or education needed is a “deeper kind of lived experience, metaphorically, the
experience of the wild,” which is especially powerful when it is shared.137 “Wilderness is a place
mostly untouched by modern technology,”138 which stands in contrast to apparent wilderness.
133 Strong, “The Implications for Nature of Borgmann’s Theory of Technology,” RPT 13 (1993): 223-252. 134 Strong, “Challenging Technology,” RPT 14 (1994): 69-92. 135 Ibid., 72. 136 Ibid., 73. 137 Ibid., 75 (italics in original). 138 Ibid., 83.
61
The latter is enframed and tamed by devices, in which experiences are made more shallow and
superficial as they are governed by technological standards of “ease, instantaneity, ubiquity, and
safety…comfort, convenience, speed, and so forth.”139 Following Henry Bugbee, Strong argued
that recognizing the essential differences between wilderness and technology depends on
patience and openness. Patience is necessary because to welcome and acknowledge things on
their terms requires time and commitment. Strong used openness in the sense used by
existentialist Gabriel Marcel, as “the openness of the person in his or her entirety,” which
includes candor about one’s self and “active receptivity in participation” with persons and
things.140 In order to challenge technology, humans need to change the way we build, that is, the
way nature is artifactually reshaped, so that we can dwell in our surroundings. The sense of
dwelling, though, depends first on the wilderness experience.
Borgmann’s work was the focus of one other contribution to RPT/Techné. Light
challenged the nature-artifact distinction that Borgmann developed in Crossing the Postmodern
Divide in “Three Questions on Hyperreality.”141 Light asked whether Borgmann’s conception of
a continuum between reality and hyperreality, in which the former possesses a “commanding
presence” in temporal, spatial, and communal continuity and the latter is “disposable” and
discontinuous, should be replaced by considering hyperreality, nature, and artifacts as three
subsets of reality.142 Doing so reduces the prominence given to hyperreality. The second
question posed by Light is whether the continuum between natural reality and non-natural reality
is unfairly biased against cities. Light concluded by asking whether Borgmann’s distinction only
139 Ibid., 71. 140 Ibid., 82. 141 Andrew Light, “Three Questions on Hyperreality,” RPT 15 (1995): 211-222. 142 Albert Borgmann, Crossing the Postmodern Divide (Chicago: University of Chicago Press, 1992), 38, as
quoted in Light, “Three Questions,” 213.
62
applies those of economic privilege who can afford commodities (in Borgmann’s sense of the
term) and may distract those from more pressing social concerns.
Novel Technology. Biotechnology, especially genetic engineering and genetic testing, and
nanotechnology have blurred the distinction between art and nature in a new way. According to
Keekok Lee, molecular deoxyribonucleic acid (DNA) technology can create a “paradigmatic
biotic artefact,” though Jim Wishloff was not persuaded by her moral claims, which he thought
should be disregarded because they depend on philosophical materialism. Anne Chapman
argued that this technology is dangerous because it encourages a domineering attitude, is
accompanied by uncertainties, and increases disparities in power and wealth. Sylvia Blad used
genetic and protein testing offers a way to test anthropological concepts, such as Peter
Sloterdijk’s “anthropogenetic mechanism,” to see if they are right. Wolfgang Schirmacher
elevated the creative plasticity that is gained through genetic modification as an act that is truly
human because other organisms do not have that capability. Christopher Preston proposed that
many environmental ethics provide the conceptual resource necessary to assess moral issues
involved with nanotechnologies, namely the deference given to evolutionary and ecological
processes that are not manipulated.
In “Patenting and Transgenic Organisms: A Philosophical Exploration,” Lee argued that
biotechnology “permits a quantum leap, so to speak, in the degree of control of biotic nature”
beyond Mendelian genetics, which generally works within species through processes similar to
natural evolution, even if their appearance would be unlikely without human intervention.143
Molecular DNA technology permits transference of genetic content between species, kingdoms,
and between eukaryotes and prokaryotes, which makes them the “paradigmatic biotic artefact,”
143 Keekok Lee, “Patenting and Transgenic Organisms: A Philosophical Exploration,” Techné: JSPT 6, no.
3 (Spring 2003): 166-175, doi: 10.5840/techne20036323.
63
one that is novel enough to deserve patent protection. In a response to Lee, Wishloff argued that
her implicit adoption of philosophical materialism ignores more fundamental questions,
including those regarding differences between the animate and inanimate, whether animals are
beings with an essence, and whether life is a commodity or mystery.144
Chapman used the distinction between the natural and unnatural to argue against
“Genetic Engineering: The Unnatural Argument.”145 The former is characterized by biological
processes learned through experience whose outcome is at least somewhat uncertain and
uncontrollable, and successful use of “natural methods” or “natural technologies” depends on
altering human actions to correspond to what has been learned. The latter is characterized by
physical and chemical processes that arise from the application of scientific theories in these
areas, which can be better controlled with less uncertainty. Unnatural technologies can be
considered successful to the degree that they make minimal demands on humans to alter their
actions. Chapman cited the attitude of domination, uncertainty that arises with its novelty, and
expected inequalities of wealth and power that will arise from its use as reasons why genetic
engineering should be considered morally wrong.
Blad argued that the true distinction between between chimpanzees and humans is based
on the social, cultural, and technological environment in which the latter live, that is, those
attributes that paradoxically makes humans less suited to surviving outside of it in “The Impact
of ‘Anthropotechnology’ on Human Evolution.”146 Blad followed philosopher Peter Sloterdijk
in identifying an “anthropogenetic mechanism,” consisting of “group-internal criteria for
144 Jim Wishloff, “Patenting and Transorganic Organisms: A Reply to Lee,” Techné: JSPT 6, no. 3 (Spring
2003): 176-180, doi: 10.5840/techne20036324. 145 Anne Chapman, “Genetic Engineering: The Unnatural Argument,” Techné: RPT 9, no. 2 (Winter 2005),
http://scholar.lib.vt.edu/ejournals/SPT/v9n2/chapman.html. 146 Sylvia Blad, “The Impact of ‘Anthropotechnology’ on Human Evolution,” Techné: RPT 14, no. 2
(Spring 2010): 72-87, doi: 10.5840/techne201014211.
64
selection, the unburdening of the body through technology, a tendency toward ‘neoteny’ (a
delayed and prolonged juvenile stage), and ‘transference,’ the (re-generation of self-created
‘spheres’ in space and time), that must be taken to understand recent human evolution.”147
Fitness based on adaptations that arise from our cultural tools (understood broadly) have genetic
consequences, which can be evaluated. Empirical genomic data (including “genome architecture
and dynamics, epigenetic patterns, and ‘epi-phylogenetic memory’”148) can be used to test
philosophical anthropology theories once the connection between genetic constitution and
phenotypic expression are made, and such an evaluation offers some support of Sloterdijk’s
theory.
Schirmacher proposed that humans as homo sapiens, homo faber, and homo creator has
been surpassed by homo generator.149 Prior to gene technology, humans connected or
accelerated evolutionary processes by breeding. Homo generator, by contrary, works “without
any restrictions, with the fundamental building blocks of life.” Humans are able to “repair”
nature, but these are often just “elimination of its malfunction indication system” and “are
usually carried out with the same mindlessness which caused the preceding devastation.”150 The
capability of genetic modification, Schirmacher argued, sets humans apart from animals in terms
of freedom and responsibility. The moral law, which separates the two kinds of beings, is joined
with freedom and responsibility because humans are not bound to evolutionary processes.
Humans alone have a “creative plasticity.”151
147 Ibid., 72. 148 Ibid., 84. 149 Wolfgang Schirmacher, “Homo Generator: The Challenge of Gene Technology,” Technology and
Responsibility. P&T 3 (1987): 203-225. 150 Ibid., 205, 206. 151 Ibid., 209.
65
After noting some surprise that, as of 2004, there were no articles on nanotechnology
written by academic environmental philosophers, Preston argued that environmental ethics
provides an appropriate framework to address questions raised by the development and use of
nanotechnologies.152 His argument depends on the assumption shared by a diverse group of
environmental philosophers, including Aldo Leopold, Rolston, and Robert Elliot, that some
value should be given to untouched (or better, at least for Leopold, perhaps lightly manipulated)
evolutionary and ecological processes. Natural objects deserve moral value based on their origin
in a “creative process,” not for their own features. From this position, Preston affirmed Lee’s
concern that the intentional replacement of autopoietic organisms with artifacts leads to an
ontological loss because nature is no longer “other” than humans, but he finds that it is less
consequential than she believes for moral matters. He finds more convincing the claim that the
absence of nano-sized particles in evolutionary processes suggests that the burden of doubt
should rest on those advocating their use.
Religion and Transcendence
Two papers discuss the relation between religion, technology, and the environment.
Frank R. Harrison critiqued the connection between technology and the environment forged by
Lynn White, Jr.’s “The Historical Roots of the Ecologic Crisis,” arguing that atomistic-
mechanical principles deserve more blame than a failed analysis of a diverse religious tradition.
Paul van Dijk provided a sweeping analysis of religion and technology, starting from Genesis,
through Bacon, Descartes, and Marx, to the present, that offers many theological resources that
may offset the desire for technological domination.
152 Christopher J. Preston, “The Promise and Threat of Nanotechnology: Can Environmental Ethics Guide
Us?” Hyle 11 no. 1 (2005): 19-44, http://www.hyle.org/journal/issues/11-1/preston.htm.
66
Frank R. Harrison focused his analysis of “The Judeo-Christian Tradition and Crises in
Contemporary Technology” on White’s “The Historical Roots of the Ecologic Crisis.”153
Harrison argued that White mistakes philosophical causes for religious ones. The former has
carried more heft in defining the terms “nature, cognition, value, and person” in the West since
the beginning of the technological movement.154 On this point Harrison followed Ellul and the
sociologist Lewis Moncrief. More importantly, though, White made a conceptual mistake by
applying “the Judeo-Christian tradition” to a family of traditions composed of many strands that
have varied over the last two millennia. “The White position takes a limited portion of the
Judeo-Christian tradition, gives it a specific interpretation, and then defines the entire tradition in
terms of that portion while disallowing any counterevidence to the allegedly universal empirical
claims the position sets forth.”155 Harrison argued that atomistic-mechanical principles, at best
weakly associated with religion, determine how concepts such as nature are defined today.
Spurred by Günther Anders’s insight that our intellectual capabilities have outstripped
our emotional capabilities to respond to our new potential, Paul van Dijk argued that moral
fantasy is necessary to develop the appropriate attitude toward the natural world.156 “Church and
theology” are important in a cultural-historical analysis because he thought White was right by
claiming that “the fundamental attitudes that have contributed to the ecological crisis have
biblical roots.”157 Van Dijk’s assessment is more tempered than White’s, though, because he
noted that biblical dominion implies responsibility and care. According to the biblical sense of
proper political authority, God’s covenant, which positions humans as stewards of nature,
153 Frank R. Harrison, “The Judeo-Christian Tradition and Crises in Contemporary Technology,” RPT 10
(1990): 103-118. 154 Ibid., 104 (italics in original). 155 Ibid., 109. 156 Paul van Dijk, “Environmental Ethics and the Recovery of Culture,” RPT 17 (1998): 25-43. 157 Ibid., 30.
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demands that rulers must be available to and show concern for their subjects.158 Such a position
is contrary to an exercise of absolute power over the non-human world. Interpreted according to
biblical norms, violent technological practices that can arise from a strong anthropocentric view
are an expression of a form of self-idolatry, i.e., seeking to impose the human image on nature.
In a two-page section called “Cultural-Historical Anamnesis,” van Dijk traced the
anthropocentric perspective back to the ascetic-monastic tradition, which understood Genesis
1:26 as “the domination of reason over affects (symbolized in animals) and the body (symbolized
in the earth).”159 Later, the concept of God as absolute freedom bound by no law was inherited
by humans, who sought to act the same way in their dealings with nature. The same trajectory
was followed during and after the Enlightenment. Francis Bacon’s work is an attempt to escape
the consequences of the Fall and regain human domination through scientific knowledge and
technological innovations. René Descartes’s separation of the res cogitans from the res extensa
leads to a one-dimensional understanding of knowing, which results in a one-dimensional way of
being. Karl Marx can be interpreted as seeing human work on nature as a form of alienation that
must be overcome, and neo-Marxist Ernst Bloch viewed nature as a “subject” rather than as just
matter.
Van Dijk offered Jürgen Moltmann’s emphasis of the trinitarian sense of God as an
antidote to the dominating position that arose from the late medieval perspective. A second
antidote to human exploitation in nature can be found in Gerhard Liedke’s extension of
Galtung’s “conflict theory” to ecological issues. Increasing technological power leads to an
asymmetrical power distribution between humans and nature. Based on the importance of the
158 Van Dijk argued that in the “hermeneutic horizon” of contemporary ecological issues, the same-day
creation of animals and humans should be understood as a sign of “solidarity,” and human dominion should be understood as serving and guarding what God had created (31).
159 Ibid., 32.
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revelation of humans as friends of God, humans should pursue an associative relationship with
nature by strengthening “the underlying partner ‘nature’” or voluntarily forgoing technological
power.160 A sacramental resource for an associative relationship is Holy Communion, in which
bread and wine, which are both natural and cultural, take on an eschatological reality. The
science behind an associative relationship must take on an “unselfish interest” that follows
Augustine’s relationship between truth and knowledge as “Non intratur in veritatem, nisi per
charitatem,” or “One does not arrive in truth except through charity.”161 Augustine’s use of the
passive form of the verb in the above quotation points toward van Dijk’s prescription to
counteract technological domination. It is receptivity, “fear of the Lord…kenosis (Phil. 2:6),
dispossession,”162 an attitude that is contrary to the Promethean aim of domination.
Politics and Policy
Several articles are concerned with politics and policy at the intersection of nature and
technology. Dick G. A. Koelega proposed that a state is justified in protecting ecological goods
insofar as they are conditions for individual autonomy of its citizens. Frederick Rapp argued that
a regionalized ethics by which desires and quality of life can be assessed must be complemented
by humility in order to be effective at a global scale. Jose A. Lopez Cerezo and Marta Gonzalez
Garcia positioned lay participation as a necessary epistemic and political complement to expert
knowledge for technological and environmental policy, which are naturally complex. Stephen
Brockman’s assessment of the post-1968 German Green movement credits the anti-technology
“fundamentalist Greens” as the antithesis needed for the ascent in “full consciousness” of the
“realist Green party.” Karen Wiley traced the history of wetlands, which now provides a buffer
160 Ibid., 35. 161 Augustine, Contra Faustum, §32. 162 Van Dijk, “Enivronmental Ethics,” 39.
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to technological development, in the U. S. from its regulative dependency on navigation to its
expansive understanding based on public benefit.
According to Koelega, the liberal state is sanctioned in restricting technological
development and use to prevent environmental deterioration if ecological goods such as
environmental preservation and biodiversity are understood as necessary conditions for
individual autonomy.163 Koelega followed Joseph Raz, who argued that in addition to John
Rawls's primary goods such as social rights and liberties, the state also should offer a varied
collection of life options that matter, and Will Kymlicka, who claimed that the state should
support cultural minorities. Since environmental resources are necessary for cultures to sustain
materially and, in many cases, to inspire and form aesthetic judgment, protection of natural
habitat becomes a legitimate political aim.
In "Explosion of Needs, Quality of Life, and the Ecology Problem," Friedrich Rapp
argued that many of the human needs that technology meets as well as those it creates are
assessed in a regionalized ethics.164 "This type of understanding and behavior serves a short-
term fulfillment of human desires, and hence it corresponds to a short-term quality of life. On
the other hand there is the broader, more far-reaching perspective that includes distant areas, the
globe as a whole, as well as generations to come, i.e., global ethics." In order to address
ecological concerns, the ethics of technology should take a "moderate, caring attitude" in the
tradition of "Francis of Assisi, Pascal, Kirkegaard [sic], and Dostoyevsky" "to fetter the Unbound
Prometheus of modern technology."
163 Dick G. A. Koelega, “Technology, Ecology, Autonomy, and the State,” JSPT 1, no. 1/2 (Fall 1995): 62-
70, doi: 10.5840/techne199511/212. 164 Friedrich Rapp, “Explosion of Needs, Quality of Life, and the Ecology Problem,” JSPT 1, no. 1/2 (Fall
1995): 71-73, doi: 10.5840/techne199511/27.
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Lopez Cerezo and Gonzales Garcia focused on epistemic and political concerns to argue
for more “Lay Knowledge and Public Participation in Technological and Environmental
Policy.”165 The authors accepted a pragmatist formulation of knowledge, “a network of beliefs
enjoying the property of warranted assertability.” They argued that experts should collaborate
with those without a scientific degree but who are directly involved in the issue in order to craft
policy that is efficient, which they take to mean “one that counts on sufficient resources
(cognitive, material, and organizational) in order to fulfill given aims within a set agenda” and to
gain political legitimacy.
Nature is important in their inquiry because “expert knowledge is knowledge negotiated
with respect to a double interacting tribunal: nature and society.” Lopez Cerezo and Gonzales
Garcia propose that social ecology has similar characteristics to ecosystem ecology, that is, that
both involve “complex, multidimensional equilibrium of functional interdependence.” Experts
simplify complexity in order to predict behavior at the price of uncertainty, and their analysis
proceeds over “open networks or open causal chains,” which results in indeterminacy. These
consequence of these limitations is that expert knowledge is not self-sufficient: “it is constrained
but not dictated by nature.” The authors point to the approach to eucalyptus planting in the
Asturias of Spain as the “technicization” of a social problem related to environmental issues
since it was dominated by technical experts.
In his analysis of the post-1968 German Green movement, Brockman argued that the
apparent ascent of “realist Greens,” who accept technology and market economics but work
energetically to oppose instantiations that have harmful environmental consequences, over the
fundamentalist Greens who advocate a wholesale rejection of technology, masks an important
165 Jose A. Lopez Cerezo and Marta Gonzales Garcia, “Lay Knowledge and Public Participation in
Technological and Environmental Policy,” JSPT 2, no. 1: 36-58, doi: 10.5840/techne1996216.
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political history.166 The fundamentalist Greens, who found common cause with Marxists and
other critics of the economic static quo, had no counterpart in the Eastern part of reunified
Germany. Eastern Greens were most concerned with replacing antiquated, inefficient, polluting
Soviet-era technology with “post-industrial technologies,” aligning with the aims and rhetoric of
the realists.167 Yet Brockman concludes that the presence of the fundamentalist wing was
necessary for the Hegelian progression from thesis to antithesis to synthesis that leads to “full
self-consciousness,” an escalation that makes no sense is a logic that denies the principle of non-
contradiction.168
Karen Wiley investigated “The Evolution of ‘Wetlands’ as a Regulatory Concept,” which
is a limit to technological encroachment.169 The term itself is new, first appearing in Webster’s
Dictionary in 1961, and it developed in two separate social groups. Interest in wetland
protection arose from duck hunters, whose concern over preserving waterfowl habitat can be
traced back to the 1934 Federal Duck Stamp Program. Over the next twenty-five years, the U.S.
Fish and Wildlife Services revised the definition to depend on hydrology, soils, and vegetation.
Wiley focused on the development of the term in statutory, regulative, and case law. Its
regulation depended on an extension from “navigable waters,” which, following English
Common Law, only included waters touched by tides, then to “indelible navigability,” which
means that if a body of water or river has been navigated once, all of it is perpetually considered
navigable, to finally all water, a change made in a 1972 amendment to the Federal Water
Pollution Control Act. The term “wetlands” was first enshrined in regulation by a 1975 U.S.
Army Corps of Engineers to include “marshes, shallows, swamps, and similar areas that are
166 Stephen Brockman, “Green without Red? The Limits of Technological Critique,” RPT 13 (1993): 283-
289. 167 Ibid., 293. 168 Ibid., 296.
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contiguous or adjacent to the above-described lakes, rivers, and streams, and that are periodically
inundated and normally characterized by the prevalence of vegetation that requires saturated soil
conditions for growth and reproduction.”170 This regulatory step was justified based on the
public benefit derived from these spaces. To put it another way, the artifactual foundation—
water that can be navigated in a boat—is replaced by an instrumental foundation.
Sustainability. A few other papers focused on the political concern of sustainability. Cesar
Cuello Nieto proposed a conception of sustainability that integrates biotic and abiotic elements.
Stanley R. Carpenter contributed two articles. In the first, he recognized the sustainability
concerns that arise from the fact that a U.S. person uses one hundred times the energy of a
hunter-gatherer, and argued that ecological economics is necessary when ecosystems are at risk
of discontinuities due to exhaustion or overuse. In the second, he proposed a blend of regulation
and market functions to manage common-pool resources and, by doing so, avoid the tragedy that
Garrett Hardin predicted. Paul B. Thompson integrated the anthropocentric interpretation of
sustainability as resource sufficiency with its ecocentric interpretation as functional integrity by
extending the timeframe of the former and including humans in the latter to ensure that social
institutions and ecological systems are also preserved. Don E. Marietta, Jr., addressed
sustainability concerns somewhat obliquely by proposing “descriptive reflection” to distinguish
needs and desires and to create a taxonomy of technologies based on the needs each meets.
Cuello Nieto supported a multidimensional model of sustainability that “places the
improvement of the human condition (social and human development) as its primary goal, and
places respect for environmental quality and the limits of nature at the core of any economic,
169 Karen B. Wiley, “The Evolution of ‘Wetlands’ as a Regulatory Concept,” RPT 17 (1998): 141-159. 170 Schlauch, Paul J. and Thomas L. Strickland, “Changing Land to Water - The Alchemy of the Federal
Wetlands Regulatory Scheme,” Rocky Mountain Mineral Law Institute (New York: Matthew Bender), 652-653, as quoted in Wiley, “Evolution of ‘Wetlands,’” 144.
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political, educational, and cultural strategy” to allow the regeneration of culture and nature.171
To do so requires a change in how humans conceive nature: its resources are not unlimited, and
its existence should be valued intrinsically. An anthropocentric views of nature should be
replaced by “a universalistic conception in which all biotic and abiotic factors of the universe are
integrated in a totality of interconnected and interdependent elements.” Cuello accepted Hans
Jonas’s assessment of modern technology as operating on a expansive spatial scale, with
extended temporal duration, at a radical fundamental level, and with novel uncertainty, and
proposed what he considered a new holistic conception of sustainability.
In response to Cuello, Paul Durbin provides his own guidelines in an attempt to answer
the question “Can There Be a Best Ethic of Sustainability?”172 Durbin’s “American Pragmatist,
Dewey-based” take on the environmental issues in development projects—the application with
which Cuello is concerned—should “define the relationship between humans and non-human
nature in a way that allows due consideration for natural phenomenon in every case” and “heed
scientific evidence about natural capacities for regeneration in the ecological niche involved.”
His more limited claims arrive from his distrust of foundational or holistic approaches to
philosophical questions, which he proposes lacks the interplay of theory and practice necessary
to address these issues.
Carpenter used Boyden and Dovers’s concept of technometabolism to assess human
interaction with the environment.173 The original daily Human Energy Equivalent (HEE) of
2400 kCal or 10 megajoules, which had doubled in the hunter-gatherer phase, and had risen to 56
171 César Cuelllo Nieto, “Toward a Holistic Approach to the Ideal of Sustainability,” JSPT 2, no. 2 (Winter
1996): 79-83. doi: 10.5840/techne19972227. 172 Paul T. Durbin, “Can There Be a Best Ethics of Sustainability?” JSPT 2, no. 2 (Winter 1996): 84-90,
doi: 10.5840/techne19972228. 173 Stanley R. Carpenter, “Toward Refined Indicators of Sustainable Development” JSPT 2, no. 2 (Winter
1997): 65-70, doi: 10.5840/techne19972225.
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HEEs in the average developing country and 100 HEEs for each person in the U.S. in the late
1990s. This increase concerned Carpenter, who proposed that the fungibility of natural capital
and its technological substitutions assumed in neoclassical economics must be complemented
with a secondary analysis that takes an ecological economics approach, which protects existing
elements, relationships, and processes. The secondary approach is necessary when technological
encroachment has resulted in ecosystems that are “approaching breakdown or shifts in state, or
where certain amenities considered valuable by the citizenry but undervalued by standard
economic measures, are threatened with extinction.”
In “Sustainability and Common-pool Resources: Alternatives to Tragedy,” Carpenter
argued that common-pool resources (CPR) are not subject to the tragedy of the commons if they
are able to be recognized and determined rightly to be scarce.174 CPR are said to have “high
subtractability,” meaning that an individual’s use affects what is available to others, and
“difficult exclusion,” meaning that it is difficult or impossible to deny access to certain groups of
people. Identifying them as such permits approaches that blend market determination and
political controls in their management.
Paul Thompson investigated “Sustainability as a Norm” as resource sufficiency, which is
anthropocentric and concerned with intergenerational justice, and as functional integrity, which
he considers ecocentric in the spirit of Deep Ecology and intrinsic value.175 To analyze resource
sufficiency, Thompson proposes a rolling fifty-year window to assess whether a resource is
abundant, renewable, or critical, based on whether a shortage is foreseen. Following Jeffrey
Burkhardt, he proposes that responsibility to humanity in general, rather than duties to a specific
174 Carpenter, “Sustainability and Common-Pool Resources: Alternatives to Tragedy,” JSPT 3, no. 4
(Summer 1998): 170-183, doi: 10.5840/techne19983420. 175 Paul Thompson, “Sustainability as a Norm,” JSPT 2, no. 2 (Winter 1996): 99-110, doi:
10.5840/techne19972230.
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person, are the proper grounding for sustainability. Functional integrity demands identifying
“crucial elements” and acting in such a way—including setting up appropriate social
institutions—to keep them within an acceptable range that is normally historically grounded.
This process is normally occurs on relatively independent farms that are meant to be held in a
family for many generations, but not in processes oriented toward short term or individual gain
such as in confined animal feeding operations (CAFO) practiced by the dairymen in Erath
County, Texas. The tension between anthropocentric and ecocentric values can be minimized by
extending the timeframe of the former and expanding the latter to include humans as part of the
ecosystems so that both social institutions and ecological systems are preserved.
Marietta, who contributed “Decisions Regarding Technology: The Human Factor,”
argued that a phenomenological approach to technology can reveal insights about the human
condition if they are articulated intersubjectively through a process he calls descriptive
reflection.176 Distinguishing human needs and desires is a critical aspect of assessing
technologies and of defining sustainability. A second critical aspect is to categorize technologies
based on the needs they meet.177 They can be therapeutic or prosthetic, make life more
convenient, add interest and value to human experience, or allow one to establish an identity or
garner social approval.
The articles summarized above are weakly related to each other, and, with the exception
of the Heideggerian-inspired critiques, do not follow Collins’s linear discourse hypothesis. The
content of the articles varies widely, and the merits of the arguments remain largely unevaluated.
A similar conclusion will be found in the analysis of similar articles in EE in the next chapter.
176 Don E. Marietta, “Decisions Regarding Technology: The Human Factor,” RPT 18 (1999): 57-72. 177 Needs is Marietta’s term, which I consider too strong.
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CHAPTER 4
TECHNOLOGY (TECHNÉ) IN THE JOURNAL ENVIRONMENTAL ETHICS
The intimate relationship between the environment and technology suggests that a
comprehensive inquiry into environmental ethics requires a robust ethical inquiry into
technology. After all, the environment provides some of the “fundamental materials” for
technology, and, in its creation, and often in its use, the environment is refashioned. An analysis
of articles in Environmental Ethics reveals that articles that offer philosophical introspective into
technology can be grouped into five constellations that differ somewhat from the constellations
developed in the third chapter.178 Similarly to the previous chapter, the goal is to provide a
comprehensive overview of the image of technology over the first “academic lifespan” of the
journal. Unlike the coordinated approach found in RPT/Techné, which summoned attention
based on conference themes, inquiry into technology in EE arose naturally and appeared at
roughly the same frequency over the life of the journal.
One constellation of articles are historical inquiries into techné, in one of its derivatives
(e.g., technology) or familial concepts, such as artifacts and the built environment. Whereas
articles in RPT/Techné focused on etymology and literature, those in EE focused on the rhetoric
of decline and the role of technology in evolutionary history.
A second constellation is composed of articles that address ways of making and the
natural world. It is, in a way, a less theoretical counterpart to the constellation from RPT/Techné
that deals with philosophical approaches at the intersection of physis and techné. The paths
explored in EE on design, artworks, earthworks, and restoration address important topics that are
obscured in RPT/Techné because of the attention its contributors gave to modern technology.
178 Hereafter, Environmental Ethics is referred to as EE. See the List of Abbreviations for a full list of all
abbreviations used..
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A third constellation consists of articles that investigate some aspect of the relationship
between science and technology and nature. Just as its complement in the previous chapter,
many articles are inspired by Heideggerian critique, and a few focus on its later development in
the work of Albert Borgmann. The form of this constellation has the most in common with the
constellation seen in RPT/Techné.
A fourth constellation, which also has a counterpart with a cluster from RPT/Techné,
includes two articles that assess the impact on Lynn White, Jr.’s “The Historical Roots of Our
Ecologic Crisis.” Though the authors are largely critical of White’s historical thoroughness,
each credits him with drawing attention to parts of medieval life that had been ignored by
historians and theologians.
Articles considered part of the fifth constellation reflect on artifacts and nature through
the lens of aesthetics, an approach that was not attempted in RPT/Techné, save David Lovekin’s
invocation of aesthetics in the premodern drawings of Agostino Ramelli, which was discussed in
Chapter 3. The authors introduce themes of receptivity, freedom, and the act of appreciating
objects, whether they are natural or made by humans, in a creative way.
Techné Seen Historically
The historical relation of nature and artifact are investigated in two articles in EE. The
apparent novelty of the critique of Heidegger and his successors can be understood as just
another instance of the rhetoric of decline, according to Andrew R. Murphy. Elizabeth
Skakoon’s focus on evolutionary history, and the role of our technology in it, showed that an
overly simplistic relationship between humans and artifacts leads to an incomplete understanding
of human development, a take that is similar to Sylvia Blad’s consideration of
anthropotechnology discussed in the previous chapter. Unlike Blad, who aimed to test
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anthropological claims, Skakoon was most concerned about the effect that recognizing the
historical importance of artifacts should have on the scientific practitioner and on any
environmental ethics that depends on such science.
Murphy took issue with the revolutionary characteristics attributed to Heidegger and
those influenced by him.179 Murphy understood these critiques as part of a long rhetorical
tradition of decline that begins with Hesiod, Thucydides, and Ovid. Borgmann’s denigration of
“devices,” which depend on a metaphysics thoroughly informed by modern science that exalts
mechanism, should be considered only the most recent rhetorical critique inasmuch as it is a
critique of technology. Heidegger’s position was preceded by Ernst Haeckel’s opposition to
“anthropism,” which consists of anthropocentrism, anthropomorphism of the Christian God as
engineer, and an “anthropolatric view that ‘ends in the apotheoisis of the human organism’ and a
mind/body distinction.”180 Haeckel’s argument was itself preceded by Victorian critiques of
urban living, especially John Ruskin’s, which condemned the separation between humans and
nature that occurred in urban environments. Recognizing the political nature of environmental
degradation claims draws attention to the rhetorical dimension that can be missed when their
historical lineage is ignored. Such recognition expands environmental discourse to include
emotional and intellectual components that determine relevant “facts of the case” and relay them
in a persuasive manner: the “politics of nature” is “created” rather than “discovered.”181
Skakoon proposed a middle way between modern philosophers trapped in Cartesian
dualism and the “outside-in” approach of environmental philosophers, which presupposes
179 Andrew R. Murphy, “Environmentalism, Antimodernism, and the Rhetoric of Decline,” EE 25, no. 1
(Spring 2003): 79-98, doi: 10.5840/enviroethics200325146. 180 Ibid., 88. 181 Ibid., 98.
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“ontological independence” of nature.182 While the latter can be interpreted to yield limits on
human behavior, it replaces a dualism between humanity and nature with one that separates
human biological attributes from cultural and artifactual elements. Such a dualism is
problematic because of the plasticity of human brains, which have evolved to depend on
artifacts. Inspired by philosopher Barry Allen’s Knowledge and Civilization, she argued “It is
through interaction with the external artifactual environment that we complete these neural
circuits and acquire a functional relationship with the environment.”183 The middle way is one
that incorporates the intertwined evolutionary history of humans and their tools.
In Skakoon’s analysis, several important differences between humans and other animals
come into relief when an evolutionary viewpoint is taken. First, the complexity of our tools,
which always arise in “economies” or “kits,” require intergenerational instruction. “The
cultivation of technique implies the existence of standards and pedagogy” which are not optional,
since Skakoon argues that the toolkits have become necessary for survival.184 The need for
instruction distinguishes human and animal artifacts. Second, tools and humans form networks
in Bruno Latour’s sense of the term, and “artifactual economies always produce more than our
intentions because in an economy, everything acts and reacts to everything else, thereby
producing new artifacts and new possibilities for action.”185 This recognition reveals shows that
Eric Katz’s understanding of the relationship between humans and their artifacts is “too
simplistic.”186 Third, again, following Allen, she defines artifacts as “the effects (both intended
and unintended) of human performance” on account of the uncertainty that accompanies human
182 Elizabeth Skakoon, “Nature and Human Identity,” EE 30, no. 1 (Spring 2008): 37-49, doi:
10.5840/enviroethics200830116. 183 Ibid., 44. 184 Ibid., 45. 185 Ibid., 45. 186 Ibid., 45.
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actions, the tools they make and use, and the consequences that arise, which, on the whole, form
an “evolving environment.”187
One other article that discussed the historical sense of nature and culture would have been
enriched by a consideration of artifacts. David W. Kidner’s “Fabricating Nature: A Critique of
the Social Construction of Nature” assessed social construction as a cultural and historical
product, without employing the comparison between techné and physis that is seemingly
telegraphed by the title word “fabricating” as part of the “critical realism” advocated by the
author.
Making and the Natural World
The articles that fit under this heading can be further subdivided into three clusters. Articles
included in the first concentrate on the activity of designing, in which ecological concerns need
to be integrated with principles of design. The second cluster consists of articles about how the
consideration of artwork and artifacts can inform environmental ethics. Articles in the third
cluster focus on a unique hybrid of techné and physis, earthworks, which are also called
environmental art.
On Design. Two papers fit in this cluster. Roger J. H. King argued that an environmental ethics
that ignored the built environment is inadequate by showing the necessity of the concept of
“exhibitive” judgments, phenomenological insight, theory about the political aspect of artifacts,
and the shared social construction of “nature” and “the artifactual.” Yuriko Saito proposed that
the ambiguity of what one must do to design with nature, rather than against it, is frequently
resolved by aesthetics, and she encouraged landscape architects to set off ecologically-important
features using the same pointers as are used to highlight valued objects cultivated or created by
humans.
187 Ibid., 46-47.
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King synthesized concerns about the natural environment with those about the built
environment.188 The aim of his paper does not seem quite obvious to him, at one point saying his
goal is “to make a case for the relevance of the built environment to environmental ethics”; at
another he says he “outline[s] four different perspectives from which we can draw support for
such a claim”; at yet another he implies that he is “integrating these four positions with
environmental ethical reflection”; and lastly he states his argument as one that “has sought to
show why the character of the built environment is significant for environmental ethics.”189
These are four different though obviously related claims.
His motivation was similar to that behind my current project. He noted that “as
philosophers concerned with how humanly engineered systems have degraded wild
environments and threatened nonhuman species, we have paid less attention to the built,
artifactual, or domesticated environments in which humans actually live.”190 Such a division is
unadvisable, however, because the built environment shapes perceptions of the natural world.
The four positions he considers are Justus Buchler’s pragmatism-informed concept of
exhibitive judgements, Don Ihde’s post-phenomenological insights, Langdon Winner’s attention
to social and psychological concerns, and Steven Vogel’s recognition of social construction of
built and natural environments. Somewhat surprisingly, Buchler does not integrate these four
positions to form a coherent environmental ethic. He also does not investigate how, for example,
Buchler’s pragmatism improves or differs from Bryan Norton’s, or how Ihde’s phenomenology
improves or differs from Lester Embree’s, for example. It seems that the goal of his paper is to
argue that environmental ethicists should situate their studies as part of general philosophical
188 Roger J. H. King, “Environmental Ethics and the Built Environment,” EE 22, no. 2 (Summer 2000):
115-131, doi: 10.5840/enviroethics200022230. 189 Ibid., 115, 116, 117, 129. 190 Ibid., 115.
82
theories, in the case of Buchler, or that they should pay attention to philosophical inquiries about
technology, in the the last three cases, rather than approaching the non-human environment as
their sole interest or perhaps even as its origin. Nevertheless, the article sketches several
interesting possibilities.
Buchler’s ambitious project was to develop a unified theory of human experience. From
this expansive effort, King honed on Buchler’s pragmatism-informed concept of exhibitive
judgments. They are judgments regarding “what we make or contrive,” which Buchler argued
was as necessary for understanding the “direction” of an individual as what he says (the
assertive) or what he does (the active).191 Human inclinations are not static. Technological
creations change both what is and what is possible in the future, and they are open to
interpretation and judgment. They also shape our ethical consciousness. According to Buchler,
“‘the encounter with possibilities is at least as important and extensive as the encounter with
actualities.’”192
The recognition that our technological activities contribute to self-interpretation can be
extended with Ihde’s phenomenological insights. Ihde argued that self-understanding is always
connected to an understanding of a world, one that is now predominantly technological. Human
mental models are formed by this “deanimated and mechanized” world, and subsequently we
interpret ourselves as part of it.193 King concludes that arguments for “non-human concerns”
such as wilderness protection must take into account the ordering of the world in which they are
uttered.
191 Ibid., 118. 192 Justus Buchler, Metaphysics of Natural Complexes (New York: Columbia University Press, 1966), 148,
as cited in King, “Environmental Ethics,” 120. 193 King, “Environmental Ethics,” 123.
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King attempted to expand Langdon Winner’s attention to the psychological and social
consequences of technology, a “form of life” that he thinks should “enlarge possibilities for
growth in human freedom, sociability, intelligence, creativity, and self-government,” to also
include environmental concerns.
We might add here that we should also pay attention to how technological systems affect our experience of nonhuman nature, our ability to see ourselves as members of communities that extend beyond the boundaries of immediate habitation, and the possibilities for developing a responsible relationship with both the built and wild environments.194
Articulations of environmental ethics should attend to the ethical inertia possessed by
contemporary artifacts and the built environment, which, King concludes, “is the focal point of a
network of commitments and opportunities–a way of life–that leave the present and future
generations indebted.”195
King used Steven Vogel’s emphasis on the social construction of built and natural
environments to argue against nature having “value and meaning in itself that imposes moral
limits on the projects and aspirations of humans.”196 While care must be taken so that this claim
is not interpreted as a justification for subjugating nature, the shared mediation in both
environments encourages an evisceration of the dualistic approach that splits ethics into two, one
concerned with humans and the other with non-humans. Further, recognition of the sociality of
nature rejects the “view from the outside” demanded by deep ecology. The step of inserting the
subject into his or her surroundings makes that the material environment, in which a subject is
situated and by which they are influenced, relevant.
194 Ibid., 124. 195 Ibid., 125. 196 Ibid., 126.
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An upshot of King’s conception of environmental ethics is that the boundary zones
between the built and natural environments, which are often neglected by environmental
philosophers, become a central point of concern.
Yuriko Saito’s second contribution to EE critiqued the presuppositions of the ecological
design movement, which he called a “kind of Copernican revolution” because it encourages
designers to work with nature, rather than against it.197 An appeal to nature is problematic
because nature is a social construction, which further complicates an unarticulated difficulty of
moving from facts to norms. As Saito notes, “we have Frank Lloyd Wright, a prominent
architect, and Jens Jensen, a landscape architect, both taking nature as “the authority for design,”
while disagreeing on how to interpret this “nature” as the guide.”198 Why, Saito asked, are
ecosystems in a climax state instructive, but disturbances and other ascending or descending
states are not? Nature can be understood as “competition, exclusion, exploitation, and survival,”
rather than “balance, integrity, order, and health,” to use Neil Evernden’s words.199 Saito argued
that the common preference for native over exotic organisms depends on a point in time that is
not obvious, and the catalog of species present at that point of time is, to varying degrees,
unknown.
Given these difficulties, how, then, should environmentally-attuned landscape designers
make decisions? “Whether or not it is wise or desirable, our actions/inactions regarding
protection of nature are greatly influenced, sometimes even determined,” Saito said, “by the
aesthetic dimension of the object.”200 An aesthetic sense, developed through education, can
motivate care and concern, even for organisms that have important roles in ecosystem behavior,
197 Yuriko Saito, “Ecological Design: Promises and Challenges,” EE 24, no. 3 (Fall 2002): 245-261, doi:
10.5840/enviroethics200224314. 198 Ibid., 249 (italics in original). 199 Ibid., 251.
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such as maggots and mosquitos, but that appear repulsive prima facie.201 Citing landscape
architect Joan Nassauer’s term of “cultural sustainability,” Saito gives landscapers the charge of
developing an ecologically-attuned aesthetics that works in concert with the “cues and clues,”
such as borders and fences, that are already used to set off what deserves respect.202
Artworks and Artifacts. Artworks and artifacts have inspired environmental ethicists in several
ways. One, the precedent of ascribing value to artworks has been cited as ethicists expand their
range of concerns to include natural objects. Comparing the differences between artifacts and
natural objects can bring into relief differences that are important in ethical deliberations.
Artifacts and art can act to accompany and intensify experiences of nature, rather than existing in
opposition. Moreover, even though artifacts and nature are largely treated separately in
disciplinary philosophical work, their experience is usually intertwined, and whether care for
artifacts is encouraged may affect whether humans tend to care for natural things.
Andrew Brennan argued that “The Moral Standing of Natural Objects” can be discerned
by comparing them to moral standing ascribed to artifacts.203 The former lack any function
determined by an external designer. The “lack of intrinsic function,” the ability of an individual
to take on different functions in different circumstances, is prima facie a shortcoming. Yet after
further consideration, it indicates a “value beyond functional utility.” He proposed that it is this
quality by which “all natural things may claim moral considerability.”204
200 Ibid., 257. 201 Aesthetics of Artworks is covered in the last part of this chapter. 202 Ibid., 261. 203 Andrew Brennan, “The Moral Standing of Natural Objects,” EE 6, no. 1 (Spring 1984): 35-56, doi:
10.5840/enviroethics19846118. 204 Ibid., 44.
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By this measure, Brennan concludes that natural objects, which include non-humans
organisms and other abiotic elements, deserve moral considerability, whereas works of art do
not.
Subtract the expressive power and the fitness for its purposes from a painting and you are left with an artifact of no particular value: the canvas, the wood for the frame, even the frame itself and the pigments in the oils, might all have been put to better use. But subtract the functions assigned by people and animals to a valley and its river, take away the ski lifts, the beaver dams, and the scenic views and you are left with an object containing within it hundreds of self-regulating systems living in a kind of natural anarchy, an object that partly determines its own climate, serving no one’s purpose, but still worthy of respect purely in its own right.205
Moral consideration, which is closely linked to freedom, can only be claimed by natural objects.
Because artifacts are intentionally constrained by their design, they can make no claim. Yet here
it seems that Brennan’s example runs into difficulty: can a “self-regulating system” have
artifactual components? If so, do they assume a share of moral concern? How does autonomy,
the purview of the individual organism, translate to a cooperative system, and would not its
emphasis exclude concern for abiotic elements?
For Thomas Leddy, nature can be appreciated through cultural media, including science,
technology, mythology, and especially the arts.206 Listening to Wagner can add a dramatic
quality to landscape viewing. Binoculars present the natural world through another medium.
Natural art, including earthworks, develop “a dialectic . . . in which nature, artist, and culture are
all elements”207 that escape the narrow confines of science. Arguing against dualistic claims by
environmental aestheticians, Leddy reminds the reader “that humans too are products of nature,
and that our artifacts are also natural, even the ugliest of them.”208 Using a phenomenological
205 Ibid., 46. 206 Thomas Leddy, “A Defense of Arts-Based Appreciation of Nature,” EE 27, no. 3 (Fall 2005): 299-315,
doi: 10.5840/enviroethics200527318. 207 Ibid., 304. 208 Ibid., 311.
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approach, the subject and object should be considered points on a continuum between aesthetic
projection and reception.
Frederik Kaufmann’s “Machines, Sentience, and the Scope of Morality” argues that
applying the same reasoning that is used to assign moral standing to non-sentient organisms,
abiotic elements, and aggregates such as ecosystems leads to machines receiving similar
standing.209 “A tree or an ecosystem maintains itself in homeostatic equilibrium; each is a
complex system of balanced interdependent subsystems. The same holds for an engine.”210 The
latter can be said to have good or well-being understood in the broad sense of telos that must be
used to say that non-living beings and aggregations have interests that can be harmed. An
externally-imposed telos seems an inadequate standard, since human goals do not solely arise
“from an autonomous, self-legislating, rational will.”211 It can be argued that outside forces
partially, and, in some instances perhaps, completely determine our goals. The assignment of
moral status based on the origins of natural selection, which gives plants standing but not
machines, can be countered by a thought experiment: why should an identical organism that
arose through any other process, say, spontaneous generation, not be granted similar status since
they have the same functions? To put it another way, is etiological knowledge a prerequisite for
moral standing?212
Such reasoning, Kaufmann believed, demands that interests be yoked to mentality, a
concept more demanding than simply having sentience.213 Beliefs, memory, and the capacity to
209 Frederik Kaufmann, “Machines, Sentience, and the Scope of Morality,” EE 16, no. 1 (Spring 1994): 57-
70, doi: 10.5840/enviroethics199416142. 210 Ibid., 60. 211 Ibid., 63. 212 Similarities exist between the way this question is posed and Gregor Schiemann’s argument in “Nature
Seen Historically” in Chapter 3. 213 Kaufmann understands sentience as “the capacity to feel pleasure or pain, and hence to an organism’s
ability to suffer or enjoy…. Construed more broadly, sentience can include a range of states of consciousness from ‘raw feels’ and affects of various kinds to emotions, intentions, beliefs, wishes, etc” (67).
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judge are required for one to have interests, to prefer one state or condition to another, which he
understands “in terms of desires (actual, potential, or idealized).”214 Consequentially, if
crustaceans and small infants are assumed to have interests, then machines should, or moral
standing should be defined in a way that does not depend on interests.
Terri Field pointed out shortcomings of developing a place-based ethics of care that
ignores the built environment when it largely artifactual.215 Philosophers dedicated to this task,
such as Jim Cheney and Karen Warren, have erred by focusing almost entirely on relationships
between humans and other “natural” objects, in particular people and animals. Warren only
requires that one individual in a relationship be a “moral being,” which may not preclude an
artifact from being the “Other,” since agency is not an essential characteristic.
Field thought that overcoming such an arbitrary limitation opens several important
questions of ethics that are excluded by environmental ethicists. Can artifactual relationships be
meaningful? How do experiences in artificial environments alter our skills or capabilities to
develop relationships with objects in nature? Does “care” directed toward artifacts reduce
concern for the natural environments? Does this imply that ethics should prioritize some kinds
of relationships, perhaps those with humans or sentient beings, over others, rather than simply
making space for bioregional narratives? Field argued that Rolston’s concept of a “storied
residence,” which includes knowing about the non-human organisms that are our neighbors,
should be expanded to include knowledge of mass transit, architecture, etc.
In the first footnote of the paper, she provides one of the clearest definitions of what she
means by the term artifacts that I found in EE. “By artifacts I mean human-made objects as
opposed to naturally occurring entities. I realize that the line cannot be drawn so easily between
214 Ibid., 70.
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natural and nonnatural entities (e.g., a garden is both natural and human-made), and evidence of
‘naturalness’ can be found in all our artifacts to some extent. However, my reasons for focusing
on artifacts and the artifactual environment should become clear throughout the paper.”216 Many
other articles in EE would have been improved by explicit conceptual definitions, even if they
are, like Field’s, somewhat hazy.
Earthworks. Earthworks are distinct hybrids that manipulate natural objects, often pairing them
with human constructions, that are inspired by aesthetic concerns. Prominent examples include
Peter Smithson’s Black Jetty and Otto Piene’s Rainbow over Munich. Unlike other artifacts,
their function does not contribute to human convenience or comfort. They also have more in
common with fine art, a sense of techné usually ignored in philosophical inquiries and critiques
that were found in RPT/Techné. Their creation raises a host of ethical, political, and aesthetic
issues.
Peter Humphrey’s investigation into whether earthworks should be considered ethical
concluded that no assessment can be made based on the genus; instead, creations must be
assessed individually.217 The results of the assessment vary depending on whether one values
nature instrumentally or intrinsically. If one takes an instrumental perspective, some earthworks
should be considered ethical if they meet the following three conditions. They must yield
sufficient aesthetic benefit or inspire considerable concern for the environment; they must
minimize environmental damage; and they must last for a limited time. If one values nature
intrinsically, the ethical requirements are heightened, perhaps to the point of impossibility. An
earthwork would have to reverse the trend of environmental degradation to be ethical, which
215 Terri Field, “Caring Relationships with Natural and Artificial Environments,” EE 17, no. 3 (Fall 1995):
307-320, doi: 10.5840/enviroethics199517320. 216 Ibid., 307, n.1.
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Humphrey claimed has not happened yet, or, at a minimum, it would have to be the best
alternative to achieve such an end, a condition which he doubted is ever the case.
Jason Simus’s defense of environmental artworks in “Environmental Art and Ecological
Citizenship” proceeded by labeling them as anthropogenic disturbances, motivated by moral,
social and ecological concerns.218 Such disturbances must be understood in the dynamism of
nature, which is always in flux, rather than as a wholly or desirably stable state, which he
characterizes as naïve innocence. As long as they do not cause extensive disturbance of spatial
and temporal scales, artworks can be aesthetically acceptable. Their creation includes public
participation by those who contribute to the construction of these assemblages, and their
reception, often by a far wider audience, is a form of what Andrew Light called ecological
citizenship. Light understood environmental restoration as healing the human-nature
relationship as well as reversing environmental damage. Within Simus’s framework,
environmental restoration often coincides with environmental artwork, which would seem to
multiply its value. Yet Simus argued that earthwork that is art alone has “as much democratic
potential as restoration does”219 because the artist’s act as a cultural agent can spur public
discourse on environmental and social issues.
Bryan Bannon’s “Re-Envisioning Nature: The Role of Aesthetics in Environmental
Ethics” argued that aesthetic judgments can do more to inform environmental ethics.220 Usually
aesthetic judgments are only used to correlate ecological well-being with scientific evaluation.
Bannon claims that “certain kinds of land art present a non-dualistic vision of human activity
217 Peter Humphrey, “The Ethics of Earthworks,” EE 7, no. 1 (Spring 1985): 5-21, doi:
10.5840/enviroethics1985717. 218 Jason Simus, “Environmental Art and Ecological Citizenship,” EE 30, no. 1 (Spring 2008): 21-36, doi:
10.5840/enviroethics200830115. 219 Ibid., 32. 220 Bryan Bannon, “Re-envisioning Nature: The Role of Aesthetics in Environmental Ethics,” EE 33, no. 4
(Winter 2011): 415-436, doi: 10.5840/enviroethics201133445.
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within nature and that this vision is a necessary precondition for linking aesthetic and ecological
values in a successful way.”221 Earth artworks “educate our perceptions not in terms of specific
categories through which we will come to understand the world around us, but in accentuating
salient relationships that alter and expand our means of categorization.”222
Drawing off the aesthetic (and hermeneutic) concept of a world and our participation in
it, through making and remaking, earthworks always reshape our norms by altering perceptual
frameworks. Toward this end, sculptor Andy Goldsworthy’s works deserve special mention.
Bannon praises Goldsworthy’s work for its presentation of “a world in which human forces are
not occluded in the work such that we begin to perceive nature and the human influence within it
differently” by drawing our attention to aspects that regularly go unnoticed and by having an
engaged relationship with the landscape rather than one that is merely passive.223 While most
earth artwork is static, Goldsworthy’s ephemeral projects highlight the fluidity and fragility of
the natural world and its intertwinement with humans, a relationship in which both parties
experience vulnerability.
Restoration. The issue of restoration clearly demonstrates the difficulty of separating physis and
techné. Is a restored ecosystem natural, or does it inherit, or retain vestiges of, artifactuality from
its designers or builders? Questions such as these are philosophically complex. They demand
consideration of how parts relate to their systems, the degree human intentions are transferred to
their objects, issues over concepts such as anthropocentrism, freedom, and artifactuality, and the
relationship between nature and culture.
The articles published on restoration best fit the model of intellectual discourse proposed
by Randall Collins. The discourse originates with philosopher Robert Elliot’s “Faking Nature,”
221 Ibid., 416. 222 Ibid., 425.
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published in the interdisciplinary journal Inquiry.224 Elliot argued that genesis and history matter
when assessing the environment. No matter how perfect the work of environmental engineers,
their work always is always inferior, a “forgery” of what originated first in nature. Eric Katz
invoked Elliot’s line of reasoning in the course of defending the moral claim made by nature that
is manifest in human’s attraction to otherness, a “yes, and” response using Collins’s terminology.
Katz’s article, in turn, precipitated several “no, but” responses, in which he was taken to task for
making genealogical, conceptual, and ontological mistakes about the relation between artifacts
and nature, and that his argument was impervious to the benefits that restoration offered. The
discourse most closely approximates dialogue, too, for Katz has responded to his critics, both in
a comment and in a second essay, which commemorated the twentieth anniversary of his first
article. A summary of the discourse follows.
Katz argued that the “Call of the Wild,” the human attraction to encounters with “wild
nature,” is a moral claim made by the natural world.225 The attraction to wild things can never be
satisfied by technologies, which, by design, promise what Thomas Birch called “control of
otherness.”226 Both the conservation and restoration movements, Katz claims, are too
anthropocentric to recognize that they are subject to this limitation. While adherents of the
former tend to see non-humans as resources, advocates of the latter introduce a moral difficulty:
“If a restored environment is an adequate replacement for the previously existing natural
environment, then humans can use, degrade, destroy, and replace natural entities and habitats
223 Ibid., 427. 224 Robert Elliot, “Faking Nature,” Inquiry 25, no. 1 (March 1982): 81-93, doi:
10.1080/00201748208601955. 225 Eric Katz, “Call of the Wild,” EE 14, no. 3 (Fall 1992): 265-273, doi: 10.5840/enviroethics199214321. 226 Thomas H. Birch, “The Incarceration of Wildness: Wilderness Areas as Prisons,” EE 12, no. 1 (Spring
1990): 18, doi: 10.5840/enviroethics19901215.
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with no moral consequences whatsoever.”227 The restored area lacks continuity with the past and
is itself, in a sense, a human artifact and a forgery of the original.
Consideration of artifacts is central to Katz’s analysis. He argued that values and moral
obligations differ between what is owed to artifacts, for which function and purpose are central,
and what is owed to natural objects, which evolve without those concerns for human well-being.
Human encroachment of the latter is rightly called domination because natural objects are
prevented from exercising their freedom and reaching their self-realization. Human activity
should be restrained to leave space for the natural world to continue “its own process and history
of development independent of human intervention and activity.”228 Such restraint is “resistance
to the total domination of the technological world.”229
Steven Vogel argued that Elliott’s and Katz’s arguments against ecological restoration
are flawed genealogically and conceptually.230 They are flawed genealogically because they
unreasonably exclude artifacts made by one species, whose origin came about from “natural
selection,” from what are considered natural. Their conceptual flaw is that they overstate the
determinacy of the human craftsman with regard to its object. To Vogel, how an object is used is
more important than what the maker intended, and what an object does means more than its
origin, for example, in the case of genetically modified animals, which obviously possess an
internal telos.
The truth, of course, is that every artifact we build produces unanticipated effects, which means that every artifact has more to it than its producers intended: and so, what an artifact is always exceeds its relation to human intention. It does so because every artifact is real, and not simply an idea in someone’s head: it’s not (merely) an intention but rather the realization of an intention, and that makes a difference for as every
227 Ibid., 269. 228 Ibid., 271. 229 Ibid., 273. 230 Steven Vogel, “The Nature of Artifacts,” EE 25, no. 2 (Summer 2003): 149-168, doi:
10.5840/enviroethics200325230.
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engineer, every gardener, and indeed every human being knows, to make something real is precisely to see it enter a realm beyond intention.231
By Vogel’s assessment, Katz’s fundamental error is adopting a conception of artifacts that is
overly instrumentalist and utilitarian. People are motivated to create artifacts or reshape nature
for different reasons. One is to allow the unpredictable to happen. Many people do not seek
domination, even if their actions can be said to somehow satisfy human desire. Restoration, in
particular, is to “go against human interests narrowly (and anthropocentrically) construed.”232 In
this case, Katz’s view of intention and anthropocentrism seemingly contradict each other:
restoration is an anti-anthropocentric intention.
Differences between human intention and actual consequences arise and develop over
time. Indeed, Vogel claimed, “when humans produce an artifact, I am suggesting, no matter
what it may be, they do so by allowing processes to come into play which then operate,
independently, to bring about a result—which result may bear a greater or lesser resemblance to
what the producers originally had in mind.”233
According to Vogel, wildness, not ontological purity, is what humans value in “natural”
settings. An appeal to history that considers non-human actions and human transformations is
more meaningful than one that privileges the former. It also provides better guidance in
determining what may be appropriate for a particular place. Vogel concluded that the value of
restoration comes “precisely from our experience in it of our involvement in the world, our
responsibilities regarding it, the concreteness and the difficulty of the work we have to do in it,
and our dependence on forces not our own to make anything we do possible.”234 Such
231 Ibid., 156 (italics in original). 232 Ibid., 158 (italics in original). 233 Ibid., 164. 234 Ibid., 165.
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experience yields self-knowledge about human actions and their consequences as well as
humility because every artifact is dependent on nature.
Yeuk-Sze Lo attacked Katz’s rejection of restoration, in which he argued that the
ontological nature of what has been restored takes on the intention of the restorer, and, by doing
so, possesses less moral value.235 She faulted Katz for confusing origin and orientation–“to
confuse anthropogenic with anthropocentric is just like confusing self-originatedness with
selfishness”236–and for making a false distinction between not acting, which can be
nonanthropocentrism, and acting, which is always anthropocentric. By Katz’s reasoning,
humans who survive based on medical aids become artifacts as well, second-rate substitutes of
others. His error stems from a dichotomous view of artifactuality: in the previous example, the
person’s “ontological dependence on technology is only partial.”237 The person’s continued
existence depends on her internal capabilities, not just the technology.
To support this claim, Lo distinguished autonomy, which is “the capacity to act or
develop in accordance with one’s own personality, telos, or principles,” from “being
autonomous,” which is “actually acting or developing” in those ways.238 Human manipulation
of nature—and other humans as well—can further or retard the capacity, or it can just restrict its
application.
According to Lo, Katz’s analysis included two other failings. First, restored natural
systems should be thought of as reproduced, not redesigned. A copy depends on a template,
which requires no novelty, and novelty is necessary for invention. Restorations are imitations,
not inventions, and the primary “blueprint” was created without human involvement. To the
235 Yeuk-Sze Lo, “Natural and Artifactual: Restored Nature as Subject,” EE 21, no. 3 (Fall 1999): 247-266,
doi: 10.5840/enviroethics199921316. 236 Ibid., 253. 237 Ibid., 254.
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extent that restored systems vary from their templates is simply an imperfect reproduction, not a
new design. Second, Lo argued Katz’s reasoning is “at least ill-grounded and at worst unjust” by
advocating separation from nature, which she judges to be poor, especially when compared with
gaining a proper attitude of care and respect.
C. Mark Cowell argued that, far from deserving Katz’s criticism, ecological restoration
“has the potential to engender, through science and technology, a positive, symbiotic relationship
between humans and the environment,” which stands in contrast to how most other interactions
are characterized.239 It also transforms ecology from a observational, descriptive science that is
precautionary to one that is predictive, experimental, and demands action. Humans are not
limited to what Eugene Hargrove called “environmental therapeutic nihilism” but can engage in
prudent manipulation. By directly reconnecting humans with their environments, new values
may arise, which Cowell proposes can lead to a “participatory-gardener” relationship that blurs
the boundaries between natural preserves and landscapes harnessed for production.240 As he puts
it, “the poles of human and natural dissolve and are replaced by a full spectrum of
participation.”241 Participation increases understanding, which can contribute to harmonious
behavior.
Cowell’s claims about the relationship of nature and technology are contrary to most
others. Elliot had argued that restored areas are deprived of their origin and history, which make
them forgeries. Hargrove had assigned preservationist duties to the “existence of good in the
world,” and the goods of nature deserve more protection than art because it is irreplaceable on
238 Ibid., 256. 239 C. Mark Cowell, “Ecological Restoration and Environmental Ethics,” EE 15, no. 1 (Spring 1993): 19-
32, doi: 10.5840/enviroethics199315136. This understanding contrasts with Barry Commoner’s Third Law of Ecology, “Nature knows best,” which Eugene Hargrove dubbed “environmental therapeutic nihilism.”
240 Ibid., 32. He argues that restoration, as presently done, results in a new set of nature preserves because humans are excluded from species of concern.
241 Ibid., 32.
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account of its complexity.242 Bruce Foltz explained the traditional position using Heideggerian
terms by arguing that the shift to resource (Bestand) can never be undone.243
Implicit in all of the restorationists’ responses, according to Cowell, is the claim “that
humans and their technology are natural.”244 Following William Jordan, he argued that too
many preservationists adopt a view that is “selectively anti-ecological,” that is, despite the
attention given to relationships and interactions of all others species, humans are encouraged to
sever all interspecies relationships. Inspired by Carolyn Merchant, Cowell claimed that human
participation in nature must recognize the responsibilities that arise from the ability of our
species to transform nature.
Restoration management can aim for a static goal, the recreation of the climax
community, which requires external compensation for unwanted perturbations, whether natural
or not. It can also embrace dynamism and use the climax community as a reference point rather
than a goal. If the goal of restoration management is “the reintroduction (or simply the
uninhibited operation of) presettlement forces,”245 humans are neglected from the analysis. Any
new values formed by direct interaction during the restoration process are at risk of dissipating,
Cowell thought.
Katz made two more contributions to the discourse in the journal that has proceeded
largely from “Call of the Wild.” The first is a brief comment, a “yes, and” amendment to Robert
Elliot, and thus his own, initial argument.246 Elliot’s analogy between nature and a material
artifact is inexact because the latter has a stability that the former lacks. Instead of using a
242 Ibid., 24. 243 Foltz, “On Heidegger and the Interpretation of Environmental Crisis,” EE 6, no. 4 (Winter 1984), 330,
doi: 10.5840/enviroethics1984643. (In the article Foltz ultimately argues against this position.) 244 Cowell, “Ecological Restoration,” 26. 245 Ibid., 30. 246 Katz, “Artefacts and Functions: A Note on the Value of Nature,” EE 18, no. 2 (Summer 1996): 222-224,
doi: 10.5840/enviroethics199618236.
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painting for comparison, Katz proposed that a dynamic human activity, such as dance or music,
corresponds better with the active processes and flux involved in nature. He also attempts to
explicitly state the superficial attitude that he fears restoration encourages. “What needs to be
restore,” he says, “is not degraded ecological systems but the human capacity for understanding
the limits and meaning of our power over the natural world.”247
Katz’s second substantial contribution to EE came twenty years later in “Further
Adventures in the Case against Restoration.”248 In it, he defended his argument that authenticity
was lost in an area that had been restored because its genesis and history had been radically
changed, and so the area is rightly called an artifact. No hybrid of natural and artifactual is
possible, he claimed, because a dualistic conception of natural objects and artifacts is necessary
to form “a normative principle to check the power of human domination.”249
His support of this exclusivity rests on linguistics. First, he summons Helena Siipi’s
linguistic analysis, which claims “the important distinction we should consider is between
artifacts and non-artifacts, not between artifacts and natural entities.” Second, he cites Paul M.
Keeling’s Wittgensteinian practical analysis of the use of the terms, rather than their essence, to
support his claim that “the dualism of nature and artifact thus does not need to be defended; it is
pre-supposed in any discussion of the value of the natural environment.”250 Though Siipi’s claim
contradicts Keeling’s, Katz interprets both as support of his dualistic presumption.
The difficulty in following his response, which seems intended for maximum rhetorical
effect, exemplifies the philosophical challenges involved with this task. Some of his claims
seem circular, and some of his terminology seems inconsistent. An example of the former is his
247 Ibid., 224. 248 Katz, “Further Adventures in the Case against Restoration,” EE 34, no. 1 (Spring 2012): 67-97, doi:
10.5840/enviroethics20123416. 249 Ibid., 86.
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claim that restoration is never restoration of nature. This is a truism within his taxonomy
because he defines nature as that which is (and apparently, has been) free from human
intentionality and design. As an example of the difficulties involved in the latter, he said
“restored ecosystems or entities are no longer natural beings but artifacts,” yet “entities can be
more or less artifactual and more or less natural.”251 He claimed “restoration projects may be
more or less artifactual because of the kind and amount of new functions that result from the
restoration activity,”252 though I am unable to imagine a “project” that is not wholly artificial
according to his definition.
Part of this difficulty arises from the number of definitions of artifacts that are included in
the paper. For Katz, it is the imposition of human agency, which changes the character of an
area by altering its causal history. They are “the physical manifestations of human intention and
design…human purpose imposed on the world of nature.”253 For Helena Siipi, artifacts are
entities that are intentionally modified to add a new function. For Keeling, the distinction
between human and non-human agency determines the “internal grammatical relation” of artifact
and nature.
One would expect that a feminist contribution may be able to advance a discussion
impeded by concerns about dualism. Unfortunately, Colette R. Palamar’s “Restorashyn:
Ecofeminist Restoration,” the only feminist foray into environmental restoration, does not
mention artifacts at all.254 Her concerns are limited to organisms, with a focus on attempts to rid
250 Ibid., 92 (italics in original). 251 Ibid., 74, 76. 252 Ibid., 89. 253 Ibid., 72. 254 Colette R. Palamar, “Restorashyn: Ecofeminist Restoration,” EE 28, no. 3 (Fall 2006): 285-301, doi:
10.5840/enviroethics200628318.
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an environment of its non-invasive, usually non-native species. This desire, she argues is a “tacit
acceptance of oppression and domination in the practice of ecological restoration.”255
Science, Technology, Technoscience, and Nature
The first paper in this constellation is Don Howard’s response to Barry Commoner’s The
Closing Circle, an early submission that stood on its own, drawing neither extension or
correction. The rest of the papers depend on or respond to the philosophy of Martin Heidegger.
Depending on the author, Heidegger’s work inspires a repositioning of metaphysics, it remedies
shortcomings in Marx, or it provides a ground that for an ethics that is neither anthropocentric
nor overly concerned with valuation. Refracted by Albert Borgmann, Heidegger’s thought
backgrounds a critique of ecologism, the use of natural science as a dominant, exclusive way of
describing the natural world, and it is applied in an assessment in backcountry hiking tools. The
dialogue includes one dissenting voice that argued that Heidegger’s importance is overstated, at
least for environmental concerns.
Howard on Commoner. Don Howard’s “Commoner on Reductionism” challenged Barry
Commoner’s claim that the environmental harms of modern technologies spring from
reductionist science, which originated in physics and, in 1979, was influencing molecular
biology.256 Howard argued that Commoner used the term “reductionism” for what philosophers
of science call an “analytic approach.” Yet philosophers of science only used reductionism to
refer to the explanation of one theory in terms of another, not to refer to the process of studying a
complex object in terms of its components. Howard also thought Commoner’s critique failed
because it made the mistaken assumption that relational properties cannot be studied using an
analytic mode.
255 Ibid., 287.
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According to Commoner, a study of a technological object such as the automobile is
concerned with the “systematic application of scientific or other organized knowledge to
practical tasks.” A study of an ecosystem, on the contrary, “cannot be subdivided into
manageable parts, for its properties reside in the whole, in the connections between the parts.”
Using the approach of the former, i.e., studying it “fragment by fragment,” “is precisely how it
has been used in the series of blunders that have generated the environmental crisis.”257 Howard
argued that the difference between the study of artifacts and ecosystem science is one of degree
rather than of kind, which arises from the fact that our knowledge of ecosystems and their
workings is always incomplete.
Commoner’s assignment of blame to the connections between scientific analysis,
technology built based on its principles, and environmental issues that have arisen from the use
of such technologies is thus erroneous. Both molecular biologists and engineers, Howard noted,
pay too little attention to relations in the systems they study. The molecular biologists and
engineers are dissuaded from such efforts because analysis on complex systems is often
expensive and because knowledge is overly disciplined, meaning that few individuals can do
such analysis on their own and multidisciplinary teams must be constructed. These problems,
Howard argued, have their philosophical origin in the common pedagogy of sciences. The
analytic approach should be spared Commoner’s reproach: his holism risks ushering in a new
era of “obscurantism.”
Heideggerian-Informed Articles. Bruce V. Foltz argued that almost all previous inquiries into
environmental ethics are inadequate because they are primarily informed by the natural sciences,
256 Don Howard, “Commoner on Reductionism,” EE 1, no. 2 (1979): 159-176, doi:
10.5840/enviroethics19791224. 257 Barry Commoner, The Closing Circle (New York: Alfred A. Knopf, 1971), 184-185, as quoted by
Howard, “Commoner,” 171 (italics in original).
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especially ecology.258 Ethics inspired by the sciences disproportionately emphasize material
things, the common objects of study for natural scientists, at the expense of relationships between
the things. This deficiency is exacerbated when it occurs in ecosystem analysis, for from it the
only conclusion that can be drawn is that humans disturb the balance of nature present in the
ecosystem. From such a baseline, environmental ethics becomes an articulation of ways to
regulate human actions to reduce or eliminate any present imbalances, a result that can be
evaluated by the same scientific framework that led to the identification of unethical behavior.
Foltz’s Heideggerian proposal is that primacy of inquiry can be given to relation with
nature from the position of relation itself as well as or instead of giving primacy to the natural
objects viewed through the perspective of the natural sciences. The “post-metaphysical
understanding of nature,” which depends on “neither the part-whole relation of ecology nor the
standpoint of metaphysical thinking, which situates itself everywhere and nowhere,” is one that
is also a “post-technological understanding of nature.”259 Such a perspective saves an
environmental ethicist from the circular trap of the natural sciences and the disengaged,
disinterested trap that snares the modern objectivist.
An understanding of the world as standing-reserve [Bestand], which informs a
technological way of thinking, must be considered as only one possible way, and a secondary
one at that, to interpret the world. An appreciation of constant presence, which is a way of being
in which self-withholding and absence are part of the field of study, is more fundamental even
though it had been largely ignored in the history of Western philosophy since the time of the
258 Bruce V. Foltz, “On Heidegger and the Environmental Crisis,” EE 6, no. 4 (1984): 323-338, doi:
10.5840/enviroethics1984643. 259 Ibid., 325.
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Greeks.260 The interpretation of nature as “what is indifferently present (vorhanden) to detached
observation,” an interpretation commonly held by natural scientists, is a second-order
understanding that obscures the meaningfulness embedded in our primal experience of nature.261
The second-order appreciation opens up a third-order understanding, which is what can be
gleaned from experiment. These derivative understandings of nature forfeit its “integral,
enchanting, and inspiring power” and “the sheltering, preserving, and self-concealing aspect of
physis,” which Foltz proposed is the “earth’s primary carrying capacity.”262
A Heideggerian corrective was also posited by Hwa Yol Jung as a way to address
limitations in Marxist analysis.263 In her reading, Marx’s concerns over alienation of humans
from each other and his desire for slave liberation cannot be extended to address human
alienation from the environment. Such an extension is impossible largely because of Marx’s
conception of technology, which is as a tool of human production meant to harness the power of
nature. Marx did not see how the advance of “History” came at the loss of nature, his conception
of man was overly determined by man as homo faber, and his economic and social thought was
conditioned by the Enlightenment promise of technology. Jung argues that the environmental
concern is more fundamental than social criticism of capitalism and socialism, one that
“demands no less than a radical deconstruction of modern technomorphic culture and its
metaphysical foundations.”264
260 From such a perspective, restoration becomes incoherent. It is merely something “challenged forth”
twice. 261 Foltz, “On Heidegger,” 332. 262 Ibid., 335-336. 263 Hwa Yol Jung, “Marxism, Ecology, and Technology,” EE 5, no. 2 (Summer 1983): 169-171, doi:
10.5840/enviroethics1983522. 264 Ibid., 171.
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Heidegger’s thought directly informed Christopher Manes’s defense of the ontological
ambiguities present in biocentric environmental ethics.265 Manes appropriated Heidegger’s
definition of technology as “a ‘relationship’ between humanity and things that forces them to
appear only in a utilitarian mode.”266 Such a conception leads to positive values, a diminution of
the Being of a thing in its Heideggerian sense. Neither mysticism, which attempts to ignore
technology, nor phenomenology, which, in articulating the background conditions in which we
interpret the world, elevates the Self over and above other organisms, can properly ground
biocentrism. “Biocentric environmentalism is the last reservoir of revolutionary energy in a
technological culture whose chief accomplishment is assimilating its critics” precisely by
avoiding the desire to make claims about positive value,267 which reinforces a technological way
of viewing the world.
Heidegger through Borgmann. Heidegger’s influence is channeled through noted philosopher of
technology Albert Borgmann in contributions from David Strong and Sarah Pohl. Strong argued
that a scientifically-informed ecology must be complemented with “disclosive discourse,” that is,
a language of engagement expressed through first-person narrative or poetry.268 Such a synthesis
escapes the confines of modern natural science, which arise from its claim to universalism and
objectivity conveyed through a reductionist mode of communication that admits only
experimental knowledge. Disclosive discourse presents “nature and natural things in their most
profound and powerful appeal,” just as it does the same with artwork, music, and human signs.269
It requires full engagement of mind and body and complete cognizance of one’s surroundings,
265 Christopher Manes, “Philosophy and the Environmental Task,” EE 10, no. 1 (Spring 1988): 75-82, doi:
10.5840/enviroethics198810124. 266 Ibid., 76 n. 2. 267 Ibid., 81. 268 David Strong, “Disclosive Discouse, Ecology, and Technology,” EE 16, no. 1 (Spring 1994): 89-102,
doi: 10.5840/enviroethics199416144. 269 Ibid., 90.
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those that are natural as well as those that are cultural. It is superior to the language of one
science or even a harmony of sciences because it reveals more fundamental insights into human
being. The importance of disclosive discourse is hard to overstate: without it, ecology loses its
subversive character.
Strong provided a corrective to Mark Sagoff’s well-known understanding of ecology as
two sciences. According to Sagoff, one science of ecology promotes domination of nature, and
the other results in respect for nature. Strong understands that this bifurcation as one science that
searches for theories and laws that can be directed toward two different and exclusive goals.
Sagoff’s explanation of science also lacks two peripheral though important understandings of its
practice. Science is a social activity motivated and affected by human passions and weaknesses.
It is also a body of knowledge that is applied in technology, which has its own human-
contributed characteristics such as resourcefulness or imperialism.270 For ecology in particular,
the first peripheral understanding orients the objects studied in scientific practice from the nearly
infinite options that are possible. The powerful direction that arises from this understanding of
the practice of science is evident from John and Mildred Teals’ study of swamp marshes. Their
inquiry “is initiated, prompted, by the various powers of marshes that stirred and awakened” the
scientists rather than the one that was determined by science in its central sense, i.e., as a search
for or application of laws of physics, chemistry, and biology.271
Disclosive discourse depends on contact with wild nature, which is at risk when the
present age is thoroughly technological. A second risk of living in a technological age in which
the value of technological progress is also assumed. The promise of comfort, convenience, and
availability of new technology overshadows the “disburdenment, disengagement, diversion,
270 Strong is using Albert Borgmann’s distinction in Technology and the Character of Contemporary Life:
A Philosophical Inquiry (Chicago: University of Chicago Press, 1984), 17.
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distraction, and loneliness” that arises from its adoption.272 Technology is harmful not just
because it is the cause of environmental harm, but, more fundamentally, it also degrades our
sense of engagement, a prerequisite for disclosive discourse. Both natural and cultural things
deserve deep engagement, an engagement that surpasses the quantitative conclusions that
disinterested, experimental science can provide.
Pohl’s “Technology and the Wilderness Experience” synthesized Borgmann and Strong’s
concern for deep engagement within the framework of Alasdair MacIntyre’s virtue ethics, which
she then applied to assess the kinds of gear that are appropriate for backcountry hiking.273 Her
essay is inspired by personal experiences and narrative, not theoretical concerns, bolstered by
MacIntyre’s concept of practice, to determine which goods are “internal” to the practice of
backcountry hiking. The assessment is guided by Albert Borgmann’s distinction between things
and devices, and Pohl shares his advocacy for focal practices.274 Moreover, Pohl sees the habits
formed by backcountry hiking as contributing to the development of characteristics, such as
greater mental clarity and self-sufficiency balanced by the recognition of our relationships with
others and greater mental clarity, that result in flourishing.275 Citing Strong and Borgmann, Pohl
positions the experience of wilderness as a counterforce to consumerist tendencies in
contemporary culture.
Religion and Transcendence
271 Strong, “Disclosive Discourse,” 96. 272 Ibid., 100. 273 Sarah Pohl, “Technology and the Wilderness Experience,” EE 28, no. 2 (Summer 2006): 147-163, doi:
10.5840/enviroethics200628229. 274 Things are artifacts that are connected to their social, temporal, and material origins that require skill to
use. Devices are artifacts in which connections are severed and operate regardless of skill or attention. A focal thing “gathers the relations of its context and radiates into its surroundings and informs them.” from Borgmann, Technology and the Character of Contemporary Life, 197.
275 Pohl, “Technology and the Wilderness Experience,” 157.
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Two articles address the relation of technology and religion through the lens of medieval
historian Lynn White, Jr.’s influential “The Historical Roots of Our Ecologic Crisis.” As best as
I could tell, none of the articles that discussed other religions and the environment devoted much
attention to how the religion influenced how artifacts and technology are understood.
White’s paper argued for a connection between technology, religion, and ethics, and its
respondents challenge central aspects of his argument. On the one hand, the discourse fits the
model of academic journal discourse, especially on an interdisciplinary topic: the papers form a
focused, sustained dialogue on an ethical importance. On the other hand, White published in
Nature, not a philosophical journal. The responses are also an academic lifespan removed from
White’s publication, which is problematic because of the critical nature of their assessment. In
her Spring 2009 paper, Robin Attfield writes “by now, the influence of ‘Roots’ has become a
cultural given, unlikely to be modified by journal articles, however broad or scholarly.”276
White’s paper gained widespread attention for at least four reasons. First, it provided a
historical justification for positing that an individual’s worldview affects how he interprets a
range of environmental issues. Religion necessarily falls under the purview of environmental
ethics. Part of the reason White’s article became a lightning rod is that advanced economies
based on modern science and technology developed in cultures in which Christianity was a
dominant cultural force, and any assessment of environmental ills is inadequate if it does not
consider religion. Second, though White’s research was over medieval history, his paper was
published in Nature, a scientific journal. Third, White’s paper was timely: it corresponded to a
rise in popular concern about the environment that led to the development of the academic
276 Robin Attfield, “Social History, Religion, and Technology: An Interdisciplinary Investigation into Lynn
White, Jr.’s ‘Roots,’”, EE 31, no. 1 (Spring 2009): 32, doi: 10.5840/enviroethics20093114. I think she understates the persistence of cultural influences and the relevance of her contribution, but it bears wondering why Attfield did not attempt an original work instead of one derived from White.
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specialization of environmental ethics. Fourth, White’s paper possesses an interpretative
uncertainty that makes it good fodder for discussion, even forty years after its publication.
Should it be considered primarily an indictment of Christianity? Or as an attempt to draw
attention to how environmental concerns depend on an individual’s broader worldview? Who
should pay attention to White’s argument?
Attfield argued that White’s paper should be understood historically because he was a
practicing medieval historian.277 It also should be understood theologically, since much of his
account is based on an interpretation of Christian history from Church Fathers such as Tertullian
and Irenaeus through the Middle Ages, and because of the voluminous response from
ecotheologians that followed the publication of White’s paper. The term ecotheology itself was
popularized and legitimized by White’s paper.
Attfield’s assessment of White’s paper is mixed. Compared to White’s earlier study of
medieval history, Medieval Technology and Social Change, “Roots” ignores historical evidence
that the eight-oxen plough had been used since almost the second century C.E. in Italy, and later
in Syria and Sardinia, and in Mexico prior to colonization. To call it the product of Western
Christianity is at best a rhetorical exaggeration. Further, White’s argument has been criticized
for implicitly depending on technological determinism or cultural determinism. It also ascribes a
single causal influence to religion and individual beliefs when social and economic influences
also matter. In Attfield’s assessment, White’s paper should be considered a rhetorical success
for its success linking values to beliefs and institutions, in spite of its many failings, which
include errors in the history of technology.
Elspeth Whitney contributed two papers, twenty years apart, to EE. In the first, she noted
evidence that casted doubt on White’s connection between medieval Christianity and
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environmental degradation, methodological issues about his historical analysis, and issues about
the relationship between technology and democracy.278 On the last point, White connected
technology to compassion. As Whitney quoted,
Engineers are arch-enemies of all who, because of their fortunate position, resist the surge of the mass of humankind toward a new order of plenty, of mobility, and of personal freedom. Within the societies which have consolidated about the Marxist and the Western democratic revolutions, engineers’ activities are the chief threat to surviving privilege.279
As Whitney remarked, White’s link between technology, compassion, and environmental
degradation leads to a line of inquiry that has been underdeveloped.
In the second, she claimed that the tremendous attention given to White’s paper for its
contribution to ecotheology and environmental ethics has led to many overlooking his role as an
environmental historian who successfully drew attention to the importance of agriculture during
the medieval period.280 White’s more extensive Medieval Technology and Social Change,
published in 1962, as well as his later writings, focused on a newfound “‘imagination’” toward
harnessing forces in nature toward “‘labour-saving technology’” more so than it did the role of
religion.281 In “Roots,” however, White introduced “a false dichotomy between Christianity as
hermeneutics and Christianity as cultural expression rooted in history” that led to confusion
interpreting the medieval period and contemporary environmental issues.282 Despite
longstanding neglect by environmental historians, White was one of the first to value “the ways
in which cultural perceptions, ideologies, ethics, and myths have become part of an individual’s
277 Attfield, “Social History, Religion, and Technology,” EE 31, no. 1 (Spring 2009): 31-50. 278 Elspeth Whitney, “Lynn White, Ecotheology, and History,” EE 15, no. 2 (Summer 1993): 151-169, doi:
10.5840/enviroethics199315229. 279 White, “Engineering and the Making of a New Humanism,” in Dynamo and Virgin Reconsidered:
Essays in the Dynamism of Western Culture (Cambridge, Mass.: MIT Press, 1971), 149, as quoted by Whitney, “Lynn White,” 153.
280 Elspeth Whitney, “The Lynn White Thesis: Reception and Legacy,” EE 35, no. 3 (Fall 2013): 313-331, doi: 10.5840/enviroethics201335328.
281 Ibid., 316.
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or group’s dialogue with nature.”283 Therefore, he deserves credit in spite of what has been
called his “Hegelian position,” his one-dimensional analysis that only considered religion, which
he interpreted monolithically, and his failure to mention that environmental degradation in
western Europe was far from unique.
Aesthetics of Artworks
Three articles focus on an aesthetics of nature vis-a-vis an aesthetics of artworks. While
noting that both an aesthetics of art and an aesthetics of nature have moral significance, Yuriko
Saito emphasized the differences between the moral implications of the two. Janna Thompson
took an opposite task, arguing that the similarities between the activity of appreciating art and
nature lead to a responsibility to protect natural entities that is at least as great as the
responsibility to preserve important artworks. Roger Paden, Laurlyn K. Harmon, and Charles R.
Milling attempt to restore the concepts of the sublime and picturesque, terms that originated in an
aesthetics of natural objects but are commonly thought to refer to artworks, that can be helpful in
engendering a sense of moral responsibility for natural beings and in describing evolution-based
science, respectively.
According to Saito, a developed aesthetics of nature has a moral component.284 A related
argument has been made by cultural geographer Yi-Fu Tuan, who compared the relationship
between aesthetic relevance and moral goodness. Art has a moral aspect because it asks one to
adopt the perspective of the artist, to step outside of one’s self. The primary similarity between
aesthetics of art and aesthetics of nature is that both should be experienced and situated in their
own context. Yet the appreciation of nature differs from that of art because to exclusively
282 Ibid., 318. 283 Ibid., 321. 284 Yuriko Saito, “Appreciating Nature on Its Own Terms,” EE 20, no. 2 (Summer 1998): 135-149, doi:
10.5840/enviroethics199820228.
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appreciate nature for its visual affects or cultural associations is a-moral. Instead, to understand
nature “for what it is” through natural history sciences, such as geology and biology, and
indigenous traditions and bioregional narratives that emphasize natural rather than human
behavior, has moral value.285 According to Saito, moral value arises through being receptive to
nature rather than exerting one’s will upon it.
Thompson proposed that Hargrove’s argument that an environmental ethic can be based
on aesthetic value can supported by the similarity of the activity of appreciating art works and
appreciating the environment.286 Like art history and art criticism, scientific knowledge,
including natural history, “makes proper appreciation possible and at the same time provides a
basis for judgments about aesthetic worth.”287 She gives several reasons for this claim. Both
kinds of appreciation must be learned and are both difficult. Aesthetics of nature and artworks
satisfy the senses, please the intellect, and inspire imagination. Some “disturb and challenge our
old habits of perception and imagination”288; others connect us to our past. From this, Thompson
concluded that “Everyone (whether they make the effort to appreciate this worth or not) has a
duty to protect and preserve natural beauty that is at least as demanding as the duty to preserve
great works of art.”289
Roger Paden, Laurlyn K. Harmon, and Charles R. Milling offered a correction to Allen
Carlson’s influential history of aesthetics.290 Carlson erred by ignoring aesthetics prior to the
eighteenth century. From the ancient Greeks through the Renaissance, beauty was understood
“to be primarily understood to be a quality of nature, specifically natural objects insofar as they
285 Ibid., 136. 286 Janna Thompson, “Aesthetics and the Value of Nature,” EE 17, no. 3 (Fall 1995): 291-305, doi:
10.5840/enviroethics199517319. 287 Ibid., 296. 288 Ibid., 302. 289 Ibid., 305.
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are symmetrical, balanced, and well-ordered.”291 Such concepts can be applied to small
organisms and objects in nature, but they say little about nature on a larger scale, such as a
mountain range, a forest, or an ocean.
Two new aesthetic categories, the “picturesque” and the “sublime,” were proposed for
such experiences. These were not adapted to an aesthetics of nature from works of art, as
Carlson believed. Instead,
What actually happened in the eighteenth century was that aestheticians shifted their attention from individual natural objects to landscapes. This shift implies that there are two separate fields of study within the aesthetics of nature—the aesthetics of individual natural objects and environmental aesthetics—and that what later occurred in the early eighteenth century was a shift from the former to the latter.
Unlike dominant narratives of aesthetics, the relationship between the categories of beauty,
sublime, and picturesque did not depend on size. A thing called the sublime brought out a
“subjective effect” of awe.292 The picturesque, usually associated with landscapes, “makes
essential reference to the notions of complexity and intricacy”293 by the absence of symmetry,
balance, and harmony. It is “fascinating and surprising, open to constant reinterpretation and
reassessment,” though not awe-inspiring, and demands “continuous creative engagement.”294
The sublime fell victim to the disinterestedness popular in eighteenth century aesthetic theories.
The origins of the picturesque were obscured and lost through etymology: it is the painting that
depicts a picturesque scene, not a scene that is called picturesque because it would make a good
painting.
The authors argue that the categories of the picturesque and sublime can be rehabilitated
to serve contemporary concerns. “Aesthetic theories inspired by the picturesque might be
290 Roger Paden, Laurlyn K. Harmon, and Charles R. Milling, “Philosophical Histories of Nature,” EE 35,
no. 1 (Spring 2013): 57-77, doi: 10.5840/enviroethics20133516. 291 Ibid., 62. 292 Ibid., 66.
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particularly appropriate to nature as understood by contemporary evolution-based science,” and
“discussions of the transformative power of the sublime might do more to lead us ‘from beauty
to duty,’ than arguments about natural beauty as disinterested pleasure.”295
Having mapped out five constellations of articles from EE that generally correspond the
constellations found in RPT/Techné, the task is to integrate the two charts. This is the task of the
next chapter.
293 Ibid., 67. 294 Ibid., 68. 295 Ibid., 76-77.
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CHAPTER 5
TOWARD A STEREOSCOPIC VIEW OF TECHNÉ AND PHYSIS
Wilfrid Sellars argued that the goal of philosophy in the present era is to integrate the
manifest and scientific images encountered, rather than letting the scientific image have
disproportionate influence, so as to see a coherent whole.296 The preceding chapters have
painted pictures of how nature has been understood in RPT/Techne, and, likewise, technology in
EE.297 The task of the next two chapters is to bring environmental philosophy and philosophy of
technology together into a stereoscopic representation.
This chapter explores the intersection between the two specializations in more detail.
First, I complete a longitudinal analysis that charts the frequency of articles that discuss the other
specialization in each interdisciplinary journal and discuss the human and institutional factors
behind their variance.
Next, I investigate the individuals who have published in both journals and the
institutions that have supported them. Paul T. Durbin’s history of philosophy of technology,
which is based on the framework developed by Walter Watson in The Architectonics of
Meaning,298 is given special attention. Durbin, whose history progresses through important
contributors to the Society of Philosophy and Technology, located the intersection of
environmental philosophy and philosophy of technology in the person and work of Andrew
Light. Durbin’s work is important because of his longstanding influence in the specialization,
and his portrayal of Light’s pragmatist orientation illuminates the novelty of my project.
296 Wilfrid Sellars, “Philosophy and the Scientific Image of Man,” in In the Space of Reasons: Selected
Essays of Wilfrid Sellars, edited by Kevin Scharp and Robert B. Brandom (Cambridge, Massachusetts: Harvard University Press, 2007), 369-408.
297 See the List of Abbreviations to see the shorthand used to refer to frequently mentioned journals. 298 Walter Watson, The Architectonics of Meaning: Foundations of the New Pluralism (Albany, New York:
State University of New York Press, 1985).
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Given the short lines of discourse investigated in the third and fourth chapters and the
limited overlap between contributors, I conclude the chapter by offering my own integration of
the two specializations that starts from one promising article from Jacques Ellul on “Nature,
Technique and Artificiality” to sketch an image of the interrelated concepts of freedom,
evolution, and ecology informed by the history and depth of philosophy of technology and
environmental philosophy.
Longitudinal Interspecialization Analysis
Both RPT/Techné and EE published articles on a number of topics that do not depend on
and would not be improved by more attention to nature and techné respectively. Such concerns,
if they arise, are secondary or tertiary to the article as it stands. For example, RPT/Techné
published articles on such themes as media, politics, design, and risk, and many contributors to
EE focused on intrinsic value and intrinsic worth, moral consideration of species and individuals,
and the importance of wilderness and its romantic depictions. As interest in these areas waxed
and waned, it is expected that attention to what appears to be a fringe topic such as nature for
Techné and techné for EE would vary.
In additional to such natural variance, institutional factors also affected the frequency of
articles germane to my inquiry. The histories of both specializations seem to have inherited the
attributes of their topics. From its beginning as the official publication of the Society for
Philosophy and Technology (SPT), RPT/Techné has had a relatively consistent community
involved in the composition and publication of articles who have also tended to the development
of the specialization, i.e., they took an active role in impressing a design on the literature and the
society. This directedness holds even though RPT/Techné has had several different editors and a
bit of an uneven publication history over its lifetime. It can be attributed in part to the body of
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literature that had been consolidated before the society was formed. SPT arose several years
after the publication of Carl Mitcham and Robert Mackey’s anthology Philosophy and
Technology: Readings in the Philosophical Problems of Technology.299 It can be attributed in
part to the institutional inheritance SPT obtained from the stable, long-established
interdisciplinary community of the Society for the History of Technology, which had published
Technology and Culture for 20 years before SPT was formed. In the third volume, Durbin
remarked that the first two volumes of RPT provided the single best introduction to philosophical
issues involved in technology, and that the second volume addressed regional bias found in the
first issue by introducing more European voices.300 At least two more decisions led to some
unity among contributors. One, RPT regularly published extensive annotated bibliographies on
the specialization and on other specializations that they found germane, including Eric Higgs’s
efforts on environmental ethics discussed later in this chapter. Bibliographies tend to contribute
to a shared foundation of knowledge that makes discourse possible. Two, RPT/Techné often
published theme issues that followed biannual conference themes, which directed contributions
toward certain topics.
The preceding comments suggest that the treatment of nature in RPT would be systematic
and regular, notwithstanding the spurts that would arise when themed volumes were dedicated to
environmental issues. This is true to an extent—some of the spike in articles can be traced to the
twelfth volume on Technology and the Environment and the eighteenth volume on Philosophies
of the Environment and Technology, and some remnants from the Peniscola, Spain biannual
conference were published in volume 2, no. 3/4 in the Journal for the Society of Philosophy and
Technology—yet what stands out is the lack of attention given the environment in every decade
299 Carl Mitcham and Robert Mackey, eds., Philosophy and Technology: Readings in the Philosophical
Problems of Technology (New York: Free Press, 1983[1972]).
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other than the 1990s. The spurts themselves prevent discourse analysis, because contributors
generate a multifaceted analysis of an issue at one moment in time, but without being informed
by the others because the different voices speak, as it were, simultaneously.
When SPT shifted its support from RPT to the Society of Philosophy and Technology
electronic quarterly in 1995, one might have thought that it would imitate the journals from other
disciplines (and like EE). Slightly after the transition, Paul T. Durbin wrote “There is no
coherent theme for this double issue. In that respect, it is much more like the contents of any
field's professional journal. We clearly have not yet arrived. But we are getting somewhere.”301
Durbin was optimistic, but after he ceded editorial responsibilities to Pieter Tijmes and Davis
Baird, over half of the volumes were themed or largely dominated by a theme, and conceptual
issues of nature and the environment were not regularly addressed. The following figure shows
the papers that address conceptual issues of the other specialization over the first generation of
each specialization.
As may be expected from a journal that studies a topic influenced by Darwin, EE evolved
more organically. Its development can be traced back to Eugene Hargrove’s elevator inspiration
in 1977, and the field was still in its infancy.302 Six years earlier, J. Baird Callicott had
volunteered to teach the first environmental ethics course at the University of Wisconsin-Stevens
Point.303 After doing so, Callicott quickly realized there was little literature on the topic: there
was nothing that corresponded to the Mitcham/Mackey anthology for some time. In addition to
the institutional, the pivotal societal event that galvanized environmental concern was Earth Day,
300 Paul T. Durbin, Introduction to the Series, RPT 3 (1980): 1-4. 301 Durbin, Preface to JSPT 2, no. 3/4, 112. 302 Eugene Hargrove, “How, When, Where, and Why,” EE 1, no. 1 (Spring 1979): 1, doi:
10.5840/enviroethics1979111. 303 University of North Texas Faculty Page for J. Baird Callicott,
https://philosophy.unt.edu/people/faculty/j-baird-callicott.
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Figure 1. Cross-Specialization Articles in EE and RPT: Techné.
which happened first in 1969. The International Society for Environmental Ethics was founded
in 1987. Contrast this to the development and use of the atomic bomb, which occurred in 1945
and the institutional history of SPT listed above. In many ways, RPT/Techné had a head start of
more than two decades.
Despite the lack of institutional guidance, articles that took conceptual issues of
technology seriously in EE were published at a regular pace over the history of the journal. The
bursts in interest given to nature in RPT/Techné do not have a counterpart in articles on
technology in EE. Even in the absence of such bursts, temporal discourse analysis was still
impossible because the intellectual give-and-take that is often thought to be part of the practice
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of academic discourse did not arise, which is the main reason that clusters of articles on a
particular topic are best considered constellations.
Brief Sketches of Crossover Contributors
At this point, it is possible to make good on my promise in the second chapter to pay
attention to the people behind the articles in both EE and RPT/Techné and the institutions that
support them, rather than just the ideas themselves or their frequencies. There were twenty-four
individuals who published in both journals over that time period. Of them, five published a
single article in each journal, and eight published more than one article in both journals. Of the
remaining contributors, nine of them published more in EE, and the other two published more in
RPT/Techné. By far the most common departmental home is in the philosophy departments of
various universities, but contributors were also part of departments of economics, political
science, environmental studies, environmental sciences, anthropology and sociology, and
agricultural economics. One author, J.A. Doeleman, published his second article while
employed by the International Labor Office in Geneva, Switzerland. Such diversity is proof that
the editors of both journals welcomed interdisciplinary contributions. The brief summaries of
the individual and the theses that he or she advanced that follow below show the diversity in
interests and approaches.
Multiple Articles in Both Journals. Of the eight authors who published more than one article in
each journal, J. Baird Callicott, Eric Katz, Steven Vogel, and Michael Zimmerman are more
closely associated with environmental philosophy, and Frederick Ferré, Kristin Shrader-
Frechette, and Paul Thompson primarily concerned with philosophy and technology. They are
all philosophers, though their research areas are diverse. Callicott is the best-known defender of
a biocentric environmental ethic developed from the writings of game manager Aldo Leopold.
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Katz’s main concern is with the ethics of restoration. Vogel’s most recent work is on the end of
nature as a guiding concept for environmental ethics, and Zimmerman is a Heidegger-inspired
ecologist. Ferré, now deceased, edited RPT from 1989 to 1994, and published an introductory
textbook Philosophy of Technology in 1995. Shrader-Frechette, the third president of SPT,
focused on technological assessment and epistemic and ethical risk analysis. Thompson, another
past president of SPT, has written widely on agricultural issues, especially those that have to do
with biotechnology.
As part of the Department of Philosophy at the University of Wisconsin, Stevens Point,
Callicott was one of the contributors to the inaugural issue of EE. In this article, he proposed,
using some symbolic logic, an environmental ethic developed from Leopold’s The Land Ethic,304
which he further described as a holistic alternative to the animal liberation movement in the
Winter 1980 issue.305 In 1982, he published two articles, the first defending Leopold’s reasoning
from charges that it had violated Hume’s is/ought distinction,306 and the second contrasting
Western material and mechanical worldviews of nature to those of American Indians, which
attributed a spiritual sense or kinship to non-humans.307 In 1985, he argued that the Cartesian
separation between subject and object is eviscerated by quantum theory, which justifies intrinsic
value through “axiological complementarity.”308 The following year, Callicott explained that
ecology also collapses the subject/object split, which is replaced by a field ontology.309 Next, he
304 J. Baird Callicott, “Elements of an Environmental Ethic,” EE 1, no. 1 (Spring 1979): 71-81, doi:
10.5840/enviroethics19791110. 305 Callicott, “Animal Liberation: A Triangular Affair,” EE 2, no. 4 (Winter 1980): 311-338. 306 Callicott, “Hume’s Is/Ought Dichotomy and the Relation of Ecology to Leopold’s Land Ethic,” EE 4,
no. 2 (Summer 1982): 163-174, doi: 10.5840/enviroethics19824214. 307 Callicott, “Traditional American Indian and Western European Attitudes toward Nature: An Overview,”
EE 4, no. 4 (Winter 1982): 293-318, doi: 10.5840/enviroethics1982443. 308 Callicott, “Intrinsic Value, Quantum Theory, and Environmental Ethics,” EE 7, no. 3 (Fall 1985): 257-
275, doi: 10.5840/enviroethics19857334. 309 Callicott, “The Metaphysical Implications of Ecology,” EE 8, no. 4 (Winter 1986): 301-316, doi:
10.5840/enviroethics19868432.
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proposed a “univocal” moral philosophy based on the work of Hume and Adam Smith, Darwin
and Leopold which incorporates human, “mixed,” and “biotic” concerns.310 In a 1992 paper
developed from an author-meets-critiques session on Holmes Rolston III’s Environmental
Ethics, Callicott argued that objective intrinsic value, as Rolston develops it, rests on the
Cartesian divide between subject and object, and is obsolete in a post-modern worldview.311 In
1996, having moved to the University of North Texas in Denton, Texas, he amended Leopold’s
Land Ethic to survive the “deconstruction” of the concepts of ecosystem and biotic community
by using the evolutionary time scale and a reasonable spatial extent as a standard against which
the consequences of current actions should be judged.312 He defended his argument in Earth’s
Insights, a “tour” of world religions and the conceptual resources each has, from its critics.313
His last article in EE, published in 2008, proposed that the top priority to govern human entry
and activity in the wilderness areas at the far south of Chilé should biodiversity preservation.
Callicott’s two contributions to Research in Philosophy and Technology were made in
1993 and 1998. In the first, while he was still at the University of Wisconsin-Stevens Point, he
argued that the replacement of the mechanistic conceptualization of nature by an organismic one
will lead to adoption of appropriate technology.314 In the second, written while he was faculty at
the University of North Texas, Callicott proposed that electronic state systems, which have less
310 Callicott, “The Case against Moral Pluralism,” EE 12, no. 2 (Summer 1990): 99-124, doi:
10.5840/enviroethics199012220. 311 Callicott, “Rolston on Intrinsic Value: A Deconstruction,” EE 14, no. 2 (Summer 1992): 129-143, doi:
10.5840/enviroethics199214229. 312 Callicott, “Do Deconstructive Ecology and Sociobiology Undermine Leopold’s Land Ethic,” EE 18, no.
4 (Winter 1996): 353-372, doi: 10.5840/enviroethics19961843. 313 Callicott, “Many Indigenous Worlds or the Indigenous World? A Reply to My ‘Indigenous’ Critics,” EE
22, no. 3 (Fall 2000): 291-310, doi: 10.5840/enviroethics200022319. 314 Callicott, “The Role of Technology in the Evolving Concept of Nature,” RPT 13 (1993): 201-222.
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environmental consequences, will become more important because their relational capabilities
match those of an ecological understanding of the world.315
Ferré, a longtime member of the Department of Philosophy at the University of Georgia
in Athens, provided an early sketch of a “personalistic” organicism that retains the benefits of
holism without forfeiting an individual’s value, creativity, and agency in EE in Fall 1989.316 Six
years later, the same journal published “Value, Time, and Nature,” in which he argued that
evolution, like painting, can be considered a kalogenic process, that is, a process in which time
depends on the creation and defense of beauty.317 His contributions to RPT/Techné start just
after his first paper in EE. “Technology, Nature, and Miracle” is a response by Ferré to two
papers, one by Jane Mary Trau and the other by John F. Post, on the epistemic and ethical
assumptions that undergird the use of artificial techniques in human reproduction.318 The same
year, he responded to two essays on his book Philosophy of Technology, one from Joseph Pitt
and the other from Peter Limpter, in P&T.319 In the 1999 RPT volume, which studied the theme
of Philosophies of the Environment and Technology, he proposed a nondualistic understanding
of neomatter as energetic and self-organizing that is far richer than what many consider “mere”
matter.320 His 1997 inquiry into how personalistic organicism, which follows a line of reasoning
similar to Hans Jonas in The Phenomemon of Life, though Ferré does not cite Jonas, can
315 Callicott, “After the Industrial Paradigm, What?” RPT 18 (1999): 13-26. 316 Frederick Ferré, “Obstacles on the Path to Organismic Ethics: Some Second Thoughts,” EE 16, no. 3
(Fall 1989): 231-241, doi: 10.5840/enviroethics198911314. 317 Ferré, “Value, Time, and Nature,” EE 17, no. 4 (Winter 1995): 417-431, doi:
10.5840/enviroethics19951748. 318 Ferré, “Technology, Nature, and Miracle,” RPT 10 (1990): 281-286. 319 Ferré, “Defining Horizons: A Reply to Joseph C. Pitt,” Broad and Narrow Interpretations of Philosophy
of Technology. P&T 7 (1990): 17-23, and “Clarifying and Applying Intelligence: A Reply to Peter Limper,” Broad and Narrow, 37-41.
320 Ferré, “On Matter and Machines,” RPT 18 (1999): 131-142.
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illuminate the ethical issues raised by cloning, also shows the inadequacy of materialism.321 He
also published two retrospectives, a personal history in 1995,322 and a reflection on the state of
the specialization—internally fractured, but in a good way—and of the external circumstances
that increase general interest in the topic.323
Jung, who worked in the Department of Political Science at Moravian College in
Bethlehem, Pennsylvania, is a rare contributor whose contributions to the two journals were
stepwise. In 1981, EE published his “The Oprhic Voice and Ecology,” in which Orpheus is “the
voice of ecology incarnate” by his music, which makes “rocks, mountains, streams, trees, forests
and animals dance as well as men.”324 Music has a “roundness” that, in matching the shape of
the globe, expresses a global harmony that counteracts speciesism and individualism. The
following year in RPT, he sketched out a theory of politics that depends the oral nature of
communication and is aware of the influence of electronic media.325 The next year in EE, Jung
argued that the elements in Karl Marx’s early writings that appear to give nature its due are lost
in his later works and do not provide a basis for environmental philosophy.326 In 1999, he
argued in RPT that the “calculative models” of cognition inherent in a technological view, which
springs from Descartes, are incompatible with sociality, “an active mode of being in the world,
that is, the active mediator of the ‘I’ and ‘circumstance.’”327
321 Ferré, “On Replicating Persons: Ethics and the Technology of Cloning.” JSPT 3 (1997).
http://scholar.lib.vt.edu/ejournals/SPT/v3n2/FERRE.html. 322 Ferré, “Philosophy and Technology after Twenty Years,” SPT 1, no. 1/2 (1995): 4-7, doi:
10.5840/techne199511/23. 323 Ferré, “Philosophy and Technology: Another Look 15 Years Later,” Techné: RPT 14, no. 1 (2010): 23-
25, doi: 10.5840/techne20101414. 324 Hwa Yol Jung, “The Orphic Voice and Ecology,” EE 3, no. 4 (Winter 1981): 329-340, doi:
10.5840/enviroethics1981344. 325 Jung, “Language, Politics, and Technology,” RPT 5 (1982): 43-63. 326 Jung, “Marxism, Ecology, and Technology,” EE 5, no. 2 (Summer 1983): 169-171, doi:
10.5840/enviroethics1983522. 327 Jung, “The Genealogy of Technological Rationality in the Human Sciences,” RPT 9 (1989): 59-75
(italics removed).
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Katz’s first article was published in EE while he was a Ph.D. candidate at Boston
University in 1979. In it, he pointed out that any argument for the preservation that depends
utilitarian ethics can only be said to be true for some alignment of human desires, which makes it
ultimately always open to revision.328 As faculty in the Departments of Philosophy and
Environmental Science at Barnard College and the Department of Philosophy at St. Joseph’s
College in Patchogue, New York, he noted that understanding the environment as an organism
diminishes the importance of each individual natural entity in a way that the community model
does not.329 He critiqued Anthony Weston’s proposal for a pragmatic shift in environmental
ethics away from intrinsic value for mistaking the ground of moral obligations and for its
anthropocentrism.330 After moving to the Science, Technology, and Society Program at the New
Jersey Institute of Technology in Newark, Katz published “The Call of the Wild,” a defense of
preservation in contrast to conservation and, especially, restoration.331 The next year he
published “Moving beyond Anthropocentrism: Environmental Ethics, Development, and the
Amazon” with Lauren Oechsli, in which they support a nonanthropocentric instrumentalism that
seeks to maximize the good of nonhuman nature.332 In 1989, he published a defense of a
pragmatic anthropocentrism that may be appropriate in some situations as he adopted what
Andrew Light called “metaphilosophical pragmatism.”333 Finally, in 2012 he wrote “Further
Adventures in the Case against Restoration,” in which he invoked Helena Sipii’s linguistic
328 Eric Katz, “Utilitarianism and Preservation,” EE 1, no. 4 (Winter 1979): 357-364, doi:
10.5840/enviroethics19791430. 329 Katz, “Organism, Community, and the ‘Substitution Problem,’” EE 7, no. 3 (Fall 1985): 241-256, doi:
10.5840/enviroethics19857337. 330 Katz, “Searching for Intrinsic Value: Pragmatism and Despair in Environmental Ethics,” EE 9, no. 3
(Fall 1987): 231-241, doi: 10.5840/enviroethics1987935. 331 Katz, “The Call of the Wild: The Struggle against Domination and the Technological Fix of Nature,” EE
14, no. 3 (Fall 1992): 265-273, doi: 10.5840/enviroethics199214321. 332 Katz and Lauren Oechsli, “Moving beyond Anthropocentrism: Environmental Ethics, Development, and
the Amazon,” EE 15, no. 1 (Spring 1993): 49-59, doi: 10.5840/enviroethics199315139.
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analysis and Paul M. Keeling’s Wittgensteinian analysis as support of his argument against the
widespread acceptance of restoration.334
Katz had a much smaller role in RPT. He argued that restoration as restitutive justice is
another anthropocentric technological fix in the 1992 volume as faculty in the Department of
Humanities at NJIT.335 His 1996 review of Carl Mitcham’s Thinking through Technology argued
that the book is framed by a technological view of the world that leads Mitcham to consider
environmental ethics just another kind of applied ethics.336 Katz also contributed a 35-page
select annotated bibliography on environmental ethics literature from 1983 through 1987 in
1989,337 and one that was 38 pages covering literature from the next three years in 1992.338
At the Department of Philosophy at the University of Louisville, Shrader-Frechette first
appeared in the pages of RPT in the 1980 volume with two articles on the nuclear energy
industry, the first on the reasons for more democratic involvement in nuclear energy decisions,
which had been centralized by the federal government in the Price-Anderson Act,339 and the
second a critique of two papers from Herbert Inhaber and Frank Adams that support nuclear
power, which focus on the technical details and include no explicit ethical consideration.340 Two
years later, now at the University of California-Santa Barbara, she turned her attention to
disparities in economic and environmental benefits and harms that went unrecognized in
333 Katz, “A Pragmatic Reconsideration of Anthropocentrism,” EE 21, no. 4 (Winter 1999): 377-390, doi:
10.5840/enviroethics19992144. 334 Katz, “Further Adventures in the Case against Restoration,” EE 34, no. 1 (Spring 2012): 67-97, doi:
10.5840/enviroethics20123416. 335 Katz, “The Big Lie: Human Restoration of Nature,” RPT 12 (1992): 231-241. 336 Katz, “The Place of Nature in the Understanding of Technology: One Critical Reading of Thinking
through Technology,” RPT 16 (1997): 171-178. Katz’s review was the one that gave Mitcham pause. 337 Katz, “Environmental Ethics: A Select Annotated Bibliography, 1983-1987,” RPT 9 (1989): 251-285. 338 Katz, “Environmental Ethics: A Select Annotated Bibliography II, 1987-1990,” RPT 12 (1992): 287-
324. 339 Kristin Shrader-Frechette, “Technology, Public Policy, and the Price-Anderson Act,” RPT 3 (1980):
313-342. 340 Shrader-Frechette, “Adams, Inhaber, and Risk-Benefit Analysis: Ethical and Methodological Problems
with Two Recent Assessments of Nuclear Power,” RPT 3 (1980): 343-365.
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technology assessments, especially when undertaken at the federal level.341 A year later in what
is considered the first volume of P&T, she argued that nonmarket consequences, such as pain
and suffering, should be included in a quantified assessment of risk, even though the conversion
is disputed.342 She also had two papers published in 1985, then at the University of Florida, one
which proposed that intelligent laypeople, not scientists, should staff the “science court”
advocated by Alex Michalos, and its mandate should include technology policy, not just
scientific fact,343 and a second that argues that commercial and military involvement in the
“plutonium economy” are inextricably linked.344 Two years later, Shrader-Frechette summarized
the range of metaphysical, methodological, and ethical criticisms of Risk-Cost-Benefit Analysis
(RCBA), concluding that its interpretation is problematic in a capitalistic utilitarian political
environment and that its subjectivity and uncertainty are often understated.345 The following
year, she emphasized informed consent and equality in economic and social positions as
conditions for which increased compensation can fairly persuade individuals to take on risks that
would not be placed on the general public.346 In 1992, she argued that risk experts need to have
their estimates calibrated to correct for biases, which can be done by reviewing past predictions
and results.347 She turned her attention to funding for academic research and positions in 1991,
warning that corporate and government clout may diminish academic freedom and direct it away
341 Shrader-Frechette, “Environmental Impact Analysis, Technology Assessment, and the Problem of
Geographical Equity,” RPT 5 (1982): 115-130. 342 Shrader-Frechette, "Technology Assessment and the Problem of Quantification,” Philosophy and
Technology. Boston Studies in the Philosophy of Science 80, P&T 1 (1983): 151-164. 343 Shrader-Frechette, “Technology Assessment, Expert Disagreement, and Democratic Procedures,” RPT 8
(1985): 103-129. 344 Shrader-Frechette, “The Plutonium Economy: Technological Links and Epistemological Problems,”
RPT 8 (1985): 189-220. 345 Shrader-Frechette, “The Real Risks of Risk-Cost-Benefit Analysis,” Technology and Responsibility.
P&T 3 (1987): 343-357. 346 Shrader-Frechette, "Public and Occupational Risk: The Double Standard,” Technology and
Contemporary Life. P&T 4 (1988): 257-277. 347 Shrader-Frechette, “Calibrating Assessors of Technological and Environmental Risk,” RPT 12 (1992):
147-155.
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from public interest if it is not subject to some limits.348 The same year she pointed out the anti-
democractic principles in the Bayesian decision-making process used to assess risk because
egalitarian concerns and a participative process are subjugated to an optimization of utility,
which is especially problematic when assessing grave risks with low probability.349 In 1999, she
turned her attention to global issues, arguing that all individuals who live in First World
countries have a responsibility to prevent the transfer of technology that has unacceptable risks
and hazards to Third World countries.350 Her most recent contribution, made as a faculty
member at the University of Notre Dame, was a critique of Joe Pitt’s epistemic approach to
philosophy of technology in Thinking through Technology, in which she faulted him for making
the same ideological and rhetorical mistakes he blamed on his colleagues in the specialization.351
Her contributions to EE are more limited, though she has been important in the
development of the concept of environmental justice. She argued for recognizing that
technological assessment nearly always leads to a technological fix that ignores ethical and
political options, even though such a position can be refuted philosophically and historically.352
Nine years later, now at the Department of Philosophy at the University of South Florida in
Tampa, she argued that informed consent by and compensation for those who might be affected
by radwaste are the best ways to deal with the ethical dilemmas it engenders.353
348 Shrader-Frechette, "Adam Smith and Alma Mater: Technology and the Threat to Academic Freedom,”
Europe, America, and Technology: Philosophical Perspectives. P&T 8 (1991): 175-189. 349 Shrader-Frechette, "Technology, Bayesian Policymaking, and Democratic Process,” Democracy in a
Technological Society, P&T 9 (1992): 123-137. 350 Shrader-Frechette, “Risk and Technology Transfer: Equal Protection across National Borders,”
Technological Transformation: Contextual and Conceptual Implications. P&T 5 (1999): 259-275. 351 Shrader-Frechette, “Reductionist Philosophy of Technology: Stones Thrown from Inside a Glass
House,” Techné: JSPT 5, no. 1 (Fall 2000): 21-28, doi: 10.5840/techne20015115. 352 Shrader-Frechette, “Environmental Impact Assessment and the Fallacy of Unfinished Business,” EE 4,
no. 1 (Spring 1982): 37-47, doi: 10.5840/enviroethics19824138. 353 Shrader-Frechette, “Ethical Dilemmas and Radioactive Waste: A Survey of the Issues,” EE 13, no. 4
(Winter 1991): 327-343, doi: 10.5840/enviroethics199113438.
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Thompson, who held a dual appointment with the Departments of Agricultural
Economics and Philosophy at Texas A&M University in College Station, Texas, in 1984,
proposed that advocates and opponents of nuclear energy can be organized on a need and safety
matrix. Any consensus will require advocates, who usually use deductive arguments, and
opponents of nuclear energy, who commonly employ informal arguments, to develop more
sophisticated arguments that are informed by philosophy of science, ordinary language
philosophy, and hermeneutics.354 Two years later, he drew attention to the epistemological and
methodological criticisms that are levied against uncertainty arguments and proposed two
approaches, one that addressed the relationship between scientific research and policy, and the
other that dealt with the lack of societal knowledge and the inability of scientists to convey
information to the general public.355
Almost a decade later, Thompson sought to raise issues about how the disciplinary
structure of applied science influences the choice of research topics, which, in agricultural
science, are production efficiency and human health, which he thought had a “technological
character,” and to consider other aims, such as sustainability, justice, or broad scale rural
development would require significant overhaul of people, equipment, and funding
institutions.356 A year later in RPT, Thompson investigated the different moral assumptions,
common paths of inquiry, and movements in environmental ethics kindred to sustainability, as
resource sufficiency, on one hand, or as functional integrity, on the other, which he then applied
354 Paul B. Thompson, “Need and Safety: The Nuclear Power Debate,” EE 6, no. 1 (Spring 1984): 57-69,
doi: 10.5840/enviroethics19846121. 355 Thompson, “Uncertainty Arguments in Environmental Issues,” EE 8, no. 1 (Spring 1986): 59-75, doi:
10.5840/enviroethics19868118. 356 Thompson, "Technological Values in the Applied Science Laboratory,” New Directions in the
Philosophy of Technology, P&T 11 (1995): 139-151.
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to dairy farming in Erath County, Texas.357 In 2000, at Purdue University, he contributed an
extended commentary on Joe Pitt’s Thinking About Technology, which praised Pitt’s
epistemological approach to issues of technology while panning his response to social critics.358
Three years later, he contributed another extended commentary, this time on Larry Hickman’s
Philosophical Tools for a Technological Culture, in which he faulted Hickman for “hammering
away” that “Dewey is the answer to every question.”359 Finally, as part of the Department of
Philosophy at Michigan State University in 2007, Thompson argued that exclusion, alienability,
and rivalry, concepts from institutional theory, are pertinent to understanding technical
change.360
Steven Vogel, from the Department of Philosophy at Denison University in Granville,
Ohio, published published both of his articles in RPT before his articles in EE. In 1991, he
argued argued that the relationship between nature and science is flawed in the accounts of
Herbert Marcuse or Jürgen Habermas, and that scientific practice must be aware of its history
and social setting as well as its function in shaping the contours of human life.361 In his 1999
response “On Michael Zimmerman’s Contesting Earth’s Future,” he critiqued Zimmerman’s
Hegelianism, which ignored “real people and real practices,” and noted that Habermas lurked in
the background of the book.362 In a 2002 EE article, he argued for a “postnaturalism” in
environmental philosophy that no longer depends on a concept of nature that is problematic and
357 Thompson, “Sustainability as a Norm,” Techné: JSPT 2, no. 2 (1997): 99-110, doi:
10.5840/techne19972228. 358 Thompson, “Thinking About Thinking About Technology,” Techné: JSPT 5, no. 1 (2000): 29-34, doi:
10.5840/techne20015116. 359 Thompson, “Putting Pragmatism to Work?” Techné: JSPT 7, no. 1 (Fall 2003): 41-44, doi:
10.5840/techne20037116. 360 Thompson, “Theorizing Technological and Institutional Change: Alienability, Rivalry and Exclusion
Cost,” Techné: RPT 11, no. 1 (2007): 19-31, doi: 10.5840/techne20071113. 361 Steven Vogel, “New Science, New Nature: The Habermas-Marcuse Debate Revisited,” RPT 11 (1991):
157-178. 362 Vogel, “On Michael Zimmerman’s Contesting Earth’s Future,” RPT 18 (1999): 195.
130
that, in a sense, refers to nothing because everything has been affected by human activities.363 In
“The Nature of Artifacts,” Vogel argued that Katz’s critique of restoration depended on
genealogical and conceptual flaws that blurred important distinctions between human intention
and actual consequences.364
Zimmerman, who was housed in the Department of Philosophy at Tulane University in
New Orleans during the span in which his articles were published in RPT and EE, wrote a
number of articles for each journal. He contributed two articles to RPT that were published in
the second volume and a third article that was published in 1983. In the first, he argued that
philosophy has supported the advance of technological culture, which has reduced most
philosophy departments to a technical discipline closed off to critical and reflective inquiry.365
In the second, he argued that technology cannot be called neutral because it impresses its
character on economics and social and political institutions, an insight that can be drawn from
Heidegger’s work and its extension of his student Herbert Marcuse.366 In the third, following
Heidegger, he critiqued the rise of humanism, which elevates human concerns above all others,
as a force that contributes to the nuclear arms race. In addition to the three articles, his book
Contesting Earth’s Future was the fodder for several papers contributed to a symposium, to
which he composed a short response, that were published in the 1999 volume.367
Zimmerman’s activity in EE spanned the 1980s and 1990s. In 1983, he proposed that a
Heideggerian ethos of “letting beings be” can resolve issues that had been inherited in Western
363 Vogel, “Environmental Philosophy after the End of Nature,” EE 24, no. 1 (Spring 2002): 23-39, doi:
10.5840/enviroethics200224139. 364 Vogel, “The Nature of Artifacts,” EE 25, no. 2 (2003): 149-168, doi: 10.5840/enviroethics200325230. 365 Michael E. Zimmerman, “Technological Culture and the End of Philosophy,” RPT 2 (1979): 137-145. 366 Zimmerman, “Heidegger and Marcuse: Technology as Ideology,” RPT 2 (1979): 245-261. 367 Zimmerman, “Recognizing the Limits of Contesting Earth’s Future,” RPT 18 (1999): 199-216.
131
philosophy, especially through the analytic strand.368 Three years later in RPT, he offered the
same Heideggerian prescription to offset the risk of nuclear war, which he thought cannot be
solved by a humanism based on a modern ontology.369 In 1987, he imagined a conversation
between deep ecologists and radical feminists, through the voice of Ariel Salleh, that discloses
common ground and differences between the two groups.370 He continued to promote
nondualism as a precedent for escaping a domineering perspective of nature in “Quantum
Theory, Intrinsic Value, and Panentheism.”371 In 1993, he revisited his connection between
Heidegger and deep ecology after the former’s support of National Socialism came to light, an
article in which he emphasized the difference between the progressive actualization of potential
of deep ecologists with the degeneration present in Heidegger.372
Multiple Contributions, Environmental Ethics Centric. Of the ten contributors to both journals
who had a single contribution to RPT/Techné, all but John Lemons were in departments of
philosophy. Lemons was in Life Sciences and related departments. Of the authors, only Robert
Frodeman, Don E. Marietta, and Holmes Rolston, III three contributed to the 1999 RPT volume
that specifically sought to discuss the two specializations. David Abram and Karen Warren were
the two authors whose contributions addressed the same issue, perception and alterity for Abram
and ecofeminism for Warren, from perspectives of each specialization. The contributions for the
others addressed a variety of topics from which I could discern no coherent project: they were
often responses to the comments of others. The only institutional overlap was that of David
368 Zimmerman, “Toward a Heideggerian Ethos for Radical Environmentalism,” EE 5, no. 2 (Summer
1983): 99-131, doi: 10.5840/enviroethics1983524. 369 Zimmerman, “Humanism, Ontology, and the Nuclear Arms Race,” RPT 6 (1983): 157-172. 370 Zimmerman, “Feminism, Deep Ecology, and Environmental Ethics,” EE 9, no. 1 (Spring 1987): 21-44,
doi: 10.5840/enviroethics19879112. 371 Zimmerman, “Quantum Theory, Intrinsic Value, and Panentheism,” EE 10, no. 1 (Spring 1988): 3-30,
doi: 10.5840/enviroethics198810126. 372 Zimmerman, “Rethinking the Heidegger-Deep Ecology Relationship,” EE 15, no. 3 (Fall 1993): 195-
224, doi: 10.5840/enviroethics199315316.
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Abram and Anthony Weston, who were both at SUNY-Stony Brook for a time. The others were
at different universities in the United States, and Keekok Lee worked at the University of
Manchester in the United Kingdom.
Abram, who taught in the Department of Philosophy at SUNY-Stony Brook, had two
publications in EE that sandwiched one in RPT. In 1988, Abram argued that Merleau-Ponty’s
phenomenological framework, which stresses situatedness and bodily perception, is a superior
alternative to environmental studies grounded on a mechanistic ecology.373 Seven years later, in
“Nature at Arm’s Length,” a critique of David Rothenberg’s Hand’s End, he focused on the lack
of alterity and subjectivity given to nature, which is conceptualized instead as our “context.”374
In 2005 in “Between the Body and the Breathing Earth: A Reply to Ted Toadvine,” Abram
defended his The Spell of the Sensuous: Perception and Language in a More-than-Human World
from Toadvine’s interpretation, which claimed that Abram shorted verbal and symbolic
reflection and that his ecophenomenological framework precluded alterity.375
Now at the University of North Texas (UNT), Frodeman first contributed to EE and
RPT/Techné from Fort Lewis College in Durango, Colorado, and then from the Departments of
Philosophy and Environmental Science at the University of Tennessee at Chattanooga. In 1992,
he argued that, in many formulations, the holism of deep ecology and the “individualism and
subjective bias” in postmodern thought are incompatible.376 Seven years later, he argued that the
science of geology can provide moral limits regarding our use and attitude toward natural
373 David Abram, “Merleau-Ponty and the Voice of the Earth,” EE 2, no. 1 (Summer 1988): 101-120, doi:
10.5840/enviroethics19881027. 374 Abram, “Nature at Arm’s Length,” RPT 15 (1995): 177-180. 375 Abram, “Between the Body and the Breathing Earth: A Reply to Ted Toadvine,” EE 27, no. 2 (Summer
2005): 171-190, doi: 10.5840/enviroethics200527229. 376 Robert Frodeman, “Radical Environmentalism and the Political Roots of Postmodernism: Differences
that Make a Difference,” EE 14, no. 4 (Winter 1992): 307-319, doi: 10.5840/enviroethics19921443.
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materials.377 In 2006, he published “The Policy Turn in Environmental Philosophy,” in which he
argued that environmental philosophy should be interdisciplinary and policy-driven, not the
production of literature for consumption by environmental philosophers.378 In 2008, he
published “Philosophy Unbound: Environmental Ethics at the End of the Earth,” in which he
argued that interdisciplinarity is necessary for philosophy to contribute to epistemic and ethical
concerns in the Cape Horn region of Chile.379
In 1980, Alastair Gunn, from the Department of Philosophy at the University of Waikato
in Hamilton, New Zealand, proposed that any suitable account of species preservation must be
founded on a principle of intrinsic value.380 Three years later, he argued that traditional ethics,
which are based on an individualistic, utilitarian view of society, cannot support the concept of
environmental stewardship.381 In 1991, he argued that concern over species extermination does
not provide a sufficient justification for opposing acts that significantly degrade the
environment.382 In 1992, Alastair Gunn advocated institutional advocacy, a “surrogate
guardian,” on behalf of future generations to promote their interests in issues of environmental
quality, especially with regards to long-lasting pollutants in RPT.383 Two years later, in the
pages of EE, he drew attention to internal policies of countries in the global North that need
reformation, which were not addressed as the same countries were paternalistically dictating
environmental policies of the global South in “Environmental Ethics and Tropical Rain Forests:
377 Frodeman, “The Rebirth of Gaia and the Closure of Homo Technologicus,” RPT 18 (1999): 95-113. 378 Frodeman, “The Policy Turn in Environmental Ethics,” EE 28, no. 1, (Spring 2006): 3-20, doi:
10.5840/enviroethics200628136. 379 Frodeman, "Philosophy Unbound: Environmental Ethics at the End of the World,” EE 30 (2008): 313-
324. 380 Alastair S. Gunn, “Why Should We Care about Rare Species?” EE 2, no. 1 (Spring 1980): 17-37, doi:
10.5840/enviroethics1980217. 381 Gunn, “Traditional Ethics and the Moral Status of Animals,” EE 5, no. 2 (Summer 1983): 133-153, doi:
10.5840/enviroethics1983528. 382 Gunn, “The Restoration of Species and Natural Environments,” EE 13, no. 4 (Winter 1991): 291-310,
doi: 10.5840/enviroethics199113437.
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Should Greens Have Standing?”384 His most recent contribution extends the work of landscape
architect Ian McHarg to address environmental issues in urban zones.385
Keekok Lee, as a member of the Department of Philosophy at the University of
Manchester in Manchester, United Kingdom, contributed her analysis of Richard Sylvan’s Last
Person Argument (LPA) to EE in 1993.386 Her contribution took place in two steps, first the
assessment of the argument to strong and two kinds of weak instrumentalism, which can be
psychological and aesthetic use or public service use, and second the use of the LPA when
applied to preservation instead of destruction of nature. Three years later, she wrote “The Source
and Locus of Intrinsic Value: A Reexamination,” in which she argues that Rolston’s grounding
of intrinsic value is more robust than Callicott’s, which accepts a Humean basis, though neither
is fully correct.387 Her single contribution to RPT came in 2003. In “Patenting and Transgenic
Organisms: A Philosophical Exploration,”388 she argued that the products of molecular DNA
technology deserve protection because its novelty, earned by crossing species, kingdoms, or the
gap between eukaryotes and prokaryotes, is more than an incremental advance from Mendelian
genetics.
Over the span of his three contributions in EE and one in RPT, John Lemons had three
different institutional homes. In 1981, from the Environmental Studies program at New England
College in Henniker, New Hampshire, he contributed “Cooperation and Stability as a Basis for
383 Gunn, “Engineering Ethics and Hazardous Waste Management,” RPT 12 (1992): 135-146. 384 Gunn, “Environmental Ethics and Tropical Rain Forests: Should Greens Have Standing?” EE 16, no. 1
(Spring 1994): 21-40, doi: 10.5840/enviroethics199416139. 385 Gunn, “Rethinking Communities: Environmental Ethics in an Urbanized World,” EE 20, no. 4 (Winter
1998): 341-360, doi: 10.5840/enviroethics19982043. 386 Keekok Lee, “Instrumentalism and the Last Person Argument,” EE 15, no. 4 (Winter 1993): 333-344,
doi: 10.5840/enviroethics19931545. 387 Lee, “The Source and Locus of Intrinsic Value: A Reexamination,” EE 18, no. 3 (Fall 1996): 297-309,
doi: 10.5840/enviroethics199618320. 388 Lee, “Patenting and Transgenic Organisms: A Philosophical Exploration,” Techné: JSPT 6, no. 3
(2003): 166-175, doi: 10.5840/techne20036323.
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Environmental Ethics,” in which he positions intra- and interspecies cooperation as a viable
alternative to competition in grounding ecosystem stability, while also outlining some of the
conceptual issues involved with using stability as a foundational concept in environmental
ethic.389 Two years later, Lemons had moved to the Department of Biology and Ecology at Deep
Springs College in California when he wrote “Atmospheric Carbon Dioxide: Environmental
Ethics and Environmental Facts,” which argued that environmental ethics is complicated by a
paucity of environmental facts in many cases, and environmental issues are not just the result of
inadequate theory or a weak will.390 In 1990, at the Department of Life Sciences at the
University of New England in Biddeford, Maine, Lemons, writing with Donald A. Brown and
Gary E. Varner, accused Congress of violating the National Environmental Policy Act of 1969
by approving the Yucca Mountain, Nevada nuclear waste disposal site, regardless of whether the
principle of existing in “productive and enjoyable harmony” is understood as setting boundaries
for which technologies are appropriate or as a way of ensuring that environmental concerns are
balanced against economic interests.391 The following year, writing with Charles Malone, he
assessed the ethical and policy implications of nuclear waste disposal by reviewing the track
record of the Department of Energy and the Nuclear Waste Policy Act and its amendments,
which he argued had become a more comprehensive as a policy guide than the NEPA.392
Don E. Marietta, housed in the Department of Philosophy at Florida Atlantic University
in Boca Raton, Florida, first contributed a defense of grounding environmental ethics on
389 John Lemons, “Cooperation and Stability as a Basis for Environmental Ethics,” EE 3, no. 3 (Fall 1981):
219-230, doi: 10.5840/enviroethics19813320. 390 Lemons, “Atmospheric Carbon Dioxide: Environmental Ethics and Environmental Facts,” EE 5, no. 1
(Spring 1993): 21-32, doi: 10.5840/enviroethics19835132. 391 Lemons, John, Donald A. Brown, and Gary E. Varner, “Congress, Consistency, and Environmental
Law,” EE 12, no. 4 (Winter 1990): 311-327, doi: 10.5840/enviroethics199012429. 392 Lemons, and Charles Malone, “The Nuclear Waste Policy Act and Its Amendments,” RPT 11 (1991): 5-
32.
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ecological sciences to the third issue of EE,393 which he defended against Tom Regan’s
criticisms the following year.394 Two years later, Marietta argued for the superiority of a
phenomenological approach over the common post-Enlightenment distinction between facts and
values and the limitations of only accepting ethical conclusions derived deductively.395 In 1988,
he defended a moderate holism, or holism as a principle, in “Ethical Holism and Individuals,”
while dismissing more extreme expressions such as Callicott’s or Katz’s reductionist
perspective.396 His only contribution to RPT, which was included in volume for which he was a
guest editor, was “Decisions Regarding Technology: The Human Factor,” in which he argued
that for boundaries of appropriate technology to have political support, discussions on the topic
must delineate different uses of technology and address the kinds of fears caused by
technology.397 The first contribution of Christopher J. Preston, in 1988 a graduate student in the
Department of Philosophy at the University of Oregon in Eugene, was a defense of Rolston’s
explanation of non-subjective intrinsic value from the epistemological criticisms levied by
Norton and Callicott.398 Two years later, then at the Department of Philosophy at the University
of South Carolina in Columbia, he followed up with “Conversing with Nature in a Postmodern
Epistemological Framework,” in which he argued that agency in nature is more
epistemologically durable when freed from the metaphor of inquiry as conversation that had
393 Don E. Marietta, Jr., “The Interrelationship of Ecological Science and Environmental Ethics,” EE 1, no.
3 (Fall 1979): 195-207, doi: 10.5840/enviroethics19791327. 394 Marietta, “World Views and Moral Decisions: A Reply to Tom Regan,” EE 2, no. 4 (Winter 1980): 369-
371, doi: 10.5840/enviroethics19802429. 395 Marietta, “Knowledge and Obligation in Environmental Ethics: A Phenomenological Approach,” EE 4,
no. 2 (Summer 1982): 153-162, doi: 10.5840/enviroethics19824221. 396 Marietta, “Ethical Holism and Individuals,” EE 10, no. 3 (Fall 1988):251-258, doi:
10.5840/enviroethics198810314. 397 Marietta, “Decisions Regarding Technology: The Human Factor,” RPT 18 (1999): 57-72. Uses include
therapeutic and prosthetic, ease or convenience, making life more interesting, and contributing to interest, worth, identity, and social connectivity. Fears arise from the overwhelming scale of modern technology, a lack of understanding or control, and the knowledge that harms can come from technologies.
398 Christopher J. Preston, “Epistemology and Intrinsic Values: Norton and Callicott’s Critiques of Rolston,” EE 20, no. 4 (Winter 1998): 409-428, doi: 10.5840/enviroethics19982047.
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been championed by Jim Cheney. In 2005, while in the Department of Philosophy at the
University of Montana in Missoula, his “The Promise and Threat of Nanotechnology: Can
Environmental Ethics Guide Us?” was published in Hyle, a joint publication with Techné: RPT
in which he argues that it can. In the same year, he published “Public Health and
Environmentalism: Adding Garbage to the History of Environmental Ethics,” written with
Steven H. Corey, which is an argument that follows lines of thought of the environmental justice
movement by focusing on New York City in the nineteenth century.399
Holmes Rolston III, from the Department of Philosophy at Colorado State University in
Fort Collins, led off the introductory issue of EE with “Can and Ought We to Follow Nature?” in
which he argued that humans should indeed follow nature in the sense of engaging it to orient
interest and value and in constructing a proper attunement to the cycles of that natural world and
appropriate human interaction with it.400 Already in this article he drew attention to the
symbiotic zones where the cultural and natural interact, a space he returned to in his sole RPT
contribution on “A Managed Earth and the End of Nature?”401 Two years after his first article in
EE, Rolston contributed an inquiry into ten types of values associated with nature, noting value
has both a subjective and relational sense as well as an objective sense that can be described by
science, and that the two senses often inform each other.402 The next year, he proposed that
natural value, especially understood in an evolutionary ecological sense, consists of humanly
subjective, naturally subjective, and objective values.403 In 1985, Rolston associated seven
“meaning levels” of value with twelve types of value to develop principles for management of
399 Preston and Steven H. Corey, “Public Health and Environmentalism: Adding Garbage to the History of
Environmental Ethics,” EE 27, no. 1 (Spring 2005): 3-21, doi: 10.5840/enviroethics200527138. 400 Holmes Rolston, III, “Can and Ought We to Follow Nature?” EE 1, no. 1 (Spring 1979): 7-30, doi:
10.5840/enviroethics1979114. 401 Rolston, “A Managed Earth and the End of Nature?” RPT 18 (1999): 143-164. 402 Rolston, “Values in Nature,” EE 3, no. 2 (Summer 1981): 113-128, doi: 10.5840/enviroethics19813245.
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wild spaces.404 Seventeen years passed between this article and Rolston’s next contribution,
“Environmental Ethics in Antarctica,” in which he argued that the continent offers an
opportunity to develop an ethic that is not burdened by national and political disputes over
sovereignty and ownership.405 This was followed by his most recent contribution that looked at
the symbiosis between the cultured urban and wild events that take place without regard to
humans in the Rocky Mountain region in which he spent the last third of his life.406
Karen Warren, in the Department of Philosophy at Macalester College in St. Paul,
Minnesota, published four articles in EE and one in RPT. Her 1987 article “Feminism and
Ecology: Making Connections” argued that ecofeminism illuminates shortcomings in other
versions of feminism.407 This article was followed by a 1990 article on “The Power and the
Promise of Ecological Feminism” that connected the domination experienced by women to what
has been experienced by non-human nature, making the strong claim that any adequate
environmental ethic must connect the two.408 Three years later, in a contribution with Jim
Cheney, she critiqued Callicott’s metaphysical claims as being incompatible with hierarchy
theory. Hierarchy theory allows integration of the multiple spatial and temporal scales needed to
interpret ecological phenomena, which should be grouped into separate organizational levels.409
The same year, her “Women, Nature, and Technology,” which argued that ecofeminism
integrates feminism, environmental concerns, and science and technology studies, and provides
403 Rolston, “Are Values in Nature Subjective or Objective?” EE 4, no. 2 (Summer 1982): 125-151, doi:
10.5840/enviroethics19824218. 404 Rolston, “Valuing Wildlands,” EE 7, no. 1 (Spring 1985): 23-48, doi: 10.5840/enviroethics19857111. 405 Rolston, “Environmental Ethics in Antarctica,” EE 24, no. 2 (Summer 2002): 115-134, doi:
10.5840/enviroethics200224226. 406 Rolston, “Mountain Majesties above Fruited Plains: Culture, Nature, and Rocky Mountain Aesthetics,”
EE 30, no. 1 (Spring 2008): 3-20, doi: 10.5840/enviroethics200830114. 407 Karen J. Warren, “Feminism and Ecology: Making Connections,” EE 9, no. 1 (Spring 1987): 3-20, doi:
10.5840/enviroethics19879113. 408 Warren, “The Power and the Promise of Ecological Feminism,” EE 12, no. 2 (Summer 1990): 125-146,
doi: 10.5840/enviroethics199012221.
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an appropriate lens that reveals an essential aspect of the relationship between women, nature,
and technology was published in the Feminism-themed volume of RPT.410 Her last contribution
to EE argued for a nondistributive justice, which focuses on the “processes, functions, structures,
and relations” that produce unjust distributions as a supplement to, or in some cases, a better
alternative than, the distributive model of justice.411
From 1985 to 2004, Anthony Weston published six articles in EE and one in RPT. His
first contributions occurred while he was housed in the Department of Philosophy at SUNY-
Stony Brook. The first promoted pragmatism, which recognizes the connection between beliefs
and values, as an option for environmental ethics that does not depend on agreement on the
existence of the intrinsic value of non-human nature.412 Two years later, he explained how deep
ecologists and ethicists interpret James Lovelock’s Gaia hypothesis differently, in ways other
than Lovelock himself did.413 In 1989, his sole contribution to RPT, which used resources from
Ivan Illich’s Tools for Conviviality to sketch out a definition of appropriate technology, was
published.414 In 1992, he proposed a stepwise evolution between ethics and culture, on the one
hand, and environmental ethics, on the other, rather than an attempt to find a new eco-oriented
ground for ethics.415 Four years later, at Elon College, North Carolina, he drew attention to the
reinforcing relationship between disvaluing nature, a cognitive act, and devaluing nature, which
409 Warren and Jim Cheney, “Ecosystem Ecology and Metaphysical Ecology: A Case Study,” EE 15, no. 2
(Summer 1993): 99-116, doi: 10.5840/enviroethics199315226. 410 Warren, “Women, Nature, and Technology,” RPT 13 (1993): 13-29. 411 Warren, “Environmental Justice: Some Ecofeminist Worries about a Distributive Model,” EE 21, no. 2
(Summer 1999): 151-161, doi: 10.5840/enviroethics199921228. 412 Anthony Weston, “Beyond Intrinsic Value: Pragmatism in Environmental Ethics,” EE 7, no. 4 (Winter
1985): 321-339, doi: 10.5840/enviroethics19857431. 413 Weston, “Forms of Gaian Ethics,” EE 9, no. 3 (Fall 1987): 217-230, doi: 10.5840/enviroethics1987933. 414 Weston, “Ivan Illich and the Radical Critique of Tools,” RPT 9 (1989): 171-182. 415 Weston, “Before Environmental Ethics,” EE 14, no. 4 (Winter 1992): 321-338, doi:
10.5840/enviroethics19921444.
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is shown by the consequences of acting as though value cannot be subscribed to nature.416 In
1998, he proposed that Tom Birch’s advocacy of universal consideration should be considered as
one contribution to rather than the foundation of environmental ethics, which is still at an early
stage in which pluralism is expected and should be welcomed.417 Finally, he pushed that a
multicentric understanding of the non-human world is a better paradigm for environmental
philosophers than the concentric circles that are used to express the expansion of ethics to more
and more beings.418
Multiple Contributions, Techné-Centric. The number of EE-centric contributors dwarfs the
number of RPT/Techné-centric contributors, which only includes Andrew Light, David Strong,
and Leonard J. Waks. This disparity arose in spite of the fact that the relation of technology to
nature and the environment were the themes of two volumes. Light has worked in a variety of
institutions, including the University of California-Santa Barbara, the Environmental Health
Program and the Environmental Risk Program at the University of Alberta, the Department of
Philosophy at the University of Montana, and is now active in national politics. Strong, who has
been employed by the Department of Philosophy at Rocky Mountain College in Billings,
Montana, took a more stable path.
In 1992 while at the University of California-Santa Barbara, Light mapped out some
possible changes in attitudes toward nature that may arise if the environmental ontology of
Martin Buber or Arne Naess and the deep ecologists, which he thought symbiotic, were more
widely adopted.419 His next contributions came while he worked at the University of Alberta.
416 Weston, “Self-Validating Reduction: Toward a Theory of Environmental Devaluation,” EE 18, no. 2
(Summer 1996): 115-132, doi: 10.5840/enviroethics199618227. 417 Weston, “Universal Consideration as an Originary Practice,” EE 20, no. 3 (Fall 1998): 279-289, doi:
10.5840/enviroethics199820319. 418 Weston, “Multicentrism: A Manifesto,” EE 26, no. 1 (Spring 2004): 25-40, doi:
10.5840/enviroethics200426139. 419 Andrew Light, “The Role of Technology in Environmental Questions,” RPT 12 (1992): 83-104.
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Two of his contributions were included in the 1995 volume of RPT as a postdoctoral fellow in
the Environmental Risk Program in the Department of Philosophy. The first was a response that
introduced and framed responses to David Rothenberg’s Hand’s End: Technology and the Limits
of Nature. In the second, he interrogated Albert Borgmann over the concept of hyperreality, a
simulated and stimulating environment that exceeds intensity found in real things, about whether
it granted too much standing to hyperreality and whether it was biased against city dwellers and
the poor.420 His sole EE article was written with Eric Higgs, a member of the Department of
Anthropology and Sociology at the University of Alberta. In it, they drew attention to the
political context over the question of what restoration is, especially as it is shaped by cultural
contexts, and of the political problems inherent in the commodification or nationalization of
restoration.421 Light’s next two contributions to RPT took place while he worked in Philosophy
Department of the University of Montana. In a paper from a symposium on the recent work of
Andrew Feenberg, Light revealed the relevance of some of Marx’s theory in Andrew Feenberg’s
Alternative Modernity and Critical Theory of Technology.422 Two years later, in 1998, he
critiqued the sufficiency of Douglas Kellner’s notion of media democracy to be a potent force
against global capitalism and the identity politics that media democracy tends to favor.423
Finally, in 2002 while housed in the Environmental Philosophy program at New York
University, Light argued that, to move forward, the field of philosophy of technology should be
based on a Wittgenstein-inspired descriptivism, rather than on social-normative claims.424
420 Light, “Three Questions on Hyperreality,” RPT 15 (1995): 211-222. 421 Andrew Light and Eric Higgs, “The Politics of Ecological Restoration,” EE 18, no. 3 (Fall 1996): 227-
247, doi: 10.5840/enviroethics199618315. 422 Light, “Critical Theorist of Technology: Feenberg on Marx and Democracy,” RPT 16 (1996): 131-137. 423 Light, “Media, Identity, and Politics: As Critique of Kellner,” RPT 17 (1998): 187-200. 424 Light and David Roberts, “Toward New Foundations in Philosophy of Technology: Mitcham and
Wittgenstein on Descriptions,” RPT 19 (2000): 125-147.
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Strong’s four contributions to the two journals were published in fast succession. In a
1992 article in RPT, he proposed a synthesis of environmental philosophy and philosophy of
technology in which human realization is paired with a “letting be” of natural things that offer
orientation.425 The next year in the same journal, he advised environmental ethicists to consider
how Albert Borgmann’s device paradigm has become the cultural standard.426 In 1994, he
identified the patience and openness found in wilderness as a potent challenge to the advance of
the device paradigm in the pages of RPT,427 and he argued that poetry, literature, and artwork
provides a disclosive discourse to environmental and technological worldviews that seem to
claim sufficiency in EE.428
Seven of Leonard Waks’s articles were published in RPT/Techné. The first, in 1989, as a
professor of Science, Technology, and Society at Pennsylvania State University, focused on
Ellul’s concern with technique applied to human subjects in the human sciences, education, and
work.429 He made several contributions to Europe, America, and Technology: Philosophical
Perspectives. He introduced four papers birthed at a 1990 symposium on Ivan Illich held by his
department,430 one of which was his reassessment of Illich’s Deschooling Society, which he
thought retained relevance even though the social conditions had changed from when it was
written.431 He also wrote an introduction for three papers from a Symposium on Education in
425 David Strong, “The Technological Subversion of Environmental Ethics,” RPT 12 (1992): 33-66. 426 Strong, “The Implications for Nature of Borgmann’s Theory of Technology,” RPT 13 (1993): 223-252. 427 Strong, “Challenging Technology,” RPT 14 (1994): 69-92. 428 Strong, “Disclosive Discourse, Ecology, and Technology,” EE 16, no. 1 (Spring 1994): 89-102, doi:
10.5840/enviroethics199416144. 429 Leonard J. Waks, “The Oil in the Machine: Jacques Ellul on Human Techniques in the Technological
Society,” RPT 9 (1989): 155-170. 430 Waks, "Ivan Illich's Philosophy of Technology: Introduction,” Europe, America, and Technology:
Philosophical Perspectives. P&T 8 (1991): 15-16. 431 Waks, "Ivan Illich and Deschooling Society: A Reappraisal,” Europe, America, and Technology:
Philosophical Perspectives. P&T 8 (1991): 57-73.
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Science, Technology, and Values that was published in the same volume.432 Again, he
contributed a paper that argued that for STS to recognize environmental issues but not exacerbate
them, the learning environment should be altered so that more of the content and process are
determined by the learner, more group work should be done, and learners have more authority in
the classroom.433 In 1995, having moved to the Educational Leadership and Policy Studies
program at Temple University, he published a book length volume in RPT, Technology’s School,
in which he developed a more comprehensive vision of what education should be to support
democratic ideals and participation, especially against the pressures of technology.434 In 1997,
he argued for extra-academic support for interdisciplinary studies, which do not fit in the
traditional organizational structure of the university but contribute to the public good.435 Waks’s
only contribution to EE was sandwiched between his last two RPT/Techné contributions, and in
it he argued that the importance of environmental philosophers and activists will recede as
environmental rights become subjugated by a technocratic approach to environmental issues.436
One Contribution in Each Journal. The six contributors who published a single article in each
journal are impressively diverse geographically and in their approaches. They were housed in
institutions in Australia, Canada, Germany, and the United States and in departments that range
from Theology, Ethics, and Philosophy to Economics. One is a software engineer. Somewhat
interestingly, and perhaps a cause of some concern, no contributors have published just one
article in both of the journals since Michel Dion, before the turn of the century. The contributors
432 Waks, “"Symposium on Education in Science, Technology, and Values: Introduction,” Europe,
America, and Technology: Philosophical Perspectives. P&T 8 (1991): 193-195. 433 Waks, “STS Education and the Paradox of Green Studies,” Europe, America, and Technology:
Philosophical Perspectives. P&T 8 (1991): 247-257. 434 Waks, Technology's School: The Challenge to Philosophy. RPT Supplement 3 (1995): 1-267. 435 Waks, “Public Intellectuals and Interdisciplinary Studies,” RPT 16 (1997): 61-70. 436 Waks, “Environmental Claims and Citizen Rights,” EE 18, no. 2 (Summer 1996): 133-148, doi:
10.5840/enviroethics199618228.
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interests range from practical policy concerns to theoretical aims of regrounding environmental
ethics.
Michel Dion was part of the faculté de théologie, d’éthique et de philosophie, Université
de Sherbrooke in Sherbrooke, Quebec. To RPT, he contributed “Institutionalizing
Environmental Ethics in the Corporation,” in which he argued that corporate ethics and culture
must be aligned with environmental goals, and ultimately to the common good, not mere profit
maximization, for environmental ethics to have purchase, in 1993.437 In an article published in
summer 1998 in EE, he offered a typology of environmental policies based on whether they
emphasize technical or ecological rationality and centrism.438
In 1980, J. A. Doeleman published “On the Social Rate of Discount: The Case for
Macroenvironmental Policy” as a member of the Department of Economics, University of
Newcastle, New South Wales, Australia. In this EE article, he argued that environmental
policies should be constructed from the basis of absolute minimal environmental standards, and
the policies should let discounting resolve itself naturally, rather than utilizing a temporal rate of
discount in assessing environmental standards.439 His RPT contribution, in 1992, which was
discussed in more detail in Chapter 3, posited that people will be more likely to accept artificial
ecosystem services than the sacrifices necessary to preserve natural ecosystem services.440 At
the time this article was published, Doeleman was working at the International Labor Office in
Geneva, Switzerland.
437 Michel Dion, “Institutionalizing Environmental Ethics in the Corporation,” RPT 13 (1993): 301-318. 438 Dion, “A Typology of Corporate Environmental Policies,” EE 20, no. 2 (Summer 1998): 151-162, doi:
10.5840/enviroethics199820229. 439 J. A. Doeleman, “On the Social Rate of Discount: The Case for Macroenvironmental Policy,” EE 2, no.
1 (Spring 1980): 45-58, doi: 10.5840/enviroethics19802112. 440 Doeleman, “Environment and Technology: Speculating on the Long Run,” RPT 12 (1992): 5-32.
145
As a part of the Department of Philosophy and former director of the environmental
studies program at the University of Victoria (B.C.), Alan R. Drengson published “Shifting
Paradigms: From the Technocratic to the Person-Planetary.”441 In this EE paper, he utilized
Thomas Kuhn’s concept of paradigms to argue that the shortcomings of the mechanistic,
technological epoch signal that its dominance will yield to one in which technology will be
judged by the organic and holistic principles of deep ecology. Three years later, his article “Art
and Imagination in Technological Society,” in which he argued that four-dimension simulation
will result in technique again subjugated to art, rather than the inverse, was published in RPT.442
Joseph Grange, of the Philosophy Department of the University of Southern Maine in
Portland, became interested in environmental philosopher in the course of a post-doctoral NEH
fellow at the University of Chicago charged with studying technology and culture. In his 1985
EE article on “Being, Feeling, and Environment,” he focused solely on the fundamental
importance of emotions in Spinoza and Heidegger in forming a unitive grounding for
environmental studies.443 Nine years later in RPT, he argued that Alfred North Whitehead’s
process philosophy offers a better ontology of technological beings than Heidegger’s critique and
Borgmann’s extension of it in Technology and the Character of Contemporary Life because
Whitehead creates an “open space” in which the “possible danger and goodness of technology”
can be adjudicated.444
As a software engineer and philosophy graduate student at the University of Montana,
Bill Hook published “The Fate of Skills in the Information Age,” in which he develops the
441 Alan R. Drengson, “Shifting Paradigms: From the Technocratic to the Person-Planetary,” EE 2, no. 3
(Fall 1980): 221-240, doi: 10.5840/enviroethics1980233. 442 Drengson, “Art and Imagination in Technological Society,” RPT 6 (1983): 77-91. 443 Joseph Grange, “Being, Feeling, and Environment,” EE 7 no. 4 (Winter 1985): 351-364, doi:
10.5840/enviroethics19857432. 444 Grange, “Whitehead and Heidegger on Technological Goodness,” RPT 14 (1994): 161-173.
146
concept of focal skills from Borgmann’s concept of focal practices in 2000.445 Focal skills are
always at risk of being lost, either from refinement of a device that makes the skill unnecessary,
or as the claim that it makes is weakened. Three years later, he attempted to fuse Daniel
Dennett’s thoughts on DNA and phenotypes with Albert Borgmann’s theory of information to
defend intrinsic value for non-human biotic things.446
In 1979, Klaus Michael Meyer-Abich, from the Philosophy Department at the University
of Essen, Germany, argued that, starting from a normative concept of nature, problem-oriented
interdisciplinary work and education that instills a relationship with nature can be pursued.447 He
followed a similar line of argument four years later in RPT, where he argued that nature must be
considered as beings that are existing (natura naturans) rather than as things that can be
utilized.448
On the whole, the number of academics—just twenty-seven—who had published in both
journals over the first thirty-five years was lower than I expected. There was also some overlap
between the contributors to both journals and those who discussed nature in RPT/Techné and
techné in EE, but not as much as I anticipated. Most of the Anglophone world, including
Australia, New Zealand, the United Kingdom, and many states in the United States are included,
but the only non-Anglophone in the group was Michel Dion from Quebec. To the degree that
environmental ethics began as response to concerns in the United States, the international
diversity is impressive. Yet the lack of contributions from Latin America, Africa, Asia, and
445 Bill Hook, “The Fate of Skills in the Information Age,” RPT 19 (2000): 101-123. 446 Hook, “Intrinsic Value: Under the Scrutiny of Information and Evolutionary Theory,” EE 25 (2003):
359-373, doi: 10.5840/enviroethics20032543. 447 Klaus Michael Meyer-Abich, “Toward a Practical Philosophy of Nature,” EE 1, no. 4 (Winter 1979):
293-308, doi: 10.5840/enviroethics19791423.
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continental Europe suggest any global environmental philosophy, and, to the degree they are
related, philosophy of technology, is missing voices that can deepen and extend the ideas that
have been discussed over the past thirty-five years. Moreover, the amount of interplay between
the specializations seems to be less than in the past, perhaps as each specialization gained more
sound footing in different universities.
Andrew Light: Durbin’s Synthesis between the Specializations
Paul T. Durbin’s Philosophy of Technology: In Search of Discourse Synthesis,449
published in its entirety as the whole of RPT volume 10, number 2 (Winter 2006), is a narrative
of philosophy of technology that identifies to connection points between the specialization and
environmental philosophy. Durbin was inspired by Walter Watson’s The Architectonics of
Meaning: Foundations of the New Pluralism to categorize important individuals in SPT.450
Watson’s scheme organizes individuals by the controversies in which they respond, and he
groups authors into one of four categories. One group consists of those writers whose style is
includes discussion of values that is dialectical and idealistic, in the sense of Plato’s sense of the
term, and Watson understands this group as following in Plato’s tradition. A second group is
best considered Aristotelian because they use an encyclopedic approach within a discipline or a
specialization. A third group is narrative-based and anti-methodical in style, which Watson
connects to Protagoras, for whom humans are “the measure of all things.” A fourth group uses
an objectivist, methodical approach that is linked not to any ancient Greek philosopher, but to the
448 Meyer-Abich, “What Sort of Technology Permits the Language of Nature? Conditions for Controlling
Nature-Domination Constitutionally,” Philosophy and Technology. Boston Studies in the Philosophy of Science 80. P&T 1 (1983): 211-232.
449 Paul T. Durbin, Philosophy of Technology: In Search of Discourse Synthesis, published as a special volume of Techné: RPT 10, no. 2 (Winter 2006).
450 Walter Watson, The Architectonics of Meaning: Foundations of the New Pluralism (Albany, New York: State University of New York Press, 1985).
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style and approach of modern science. The groups are not inclusive: Watson recognizes that
hybrids are possible and have become increasingly more common in the last five hundred years.
In Durbin’s history, Kristin Shrader-Frechette and Stanley Carpenter had highlighted
environmental concerns as members of SPT and in the pages of RPT. Shrader-Frechette and
Carpenter both primarily attended to practical or policy concerns, rather than more philosophical
issues. According to Durbin, Shrader-Frechette encouraged the discussion of actual technologies
rather than Heidegger’s technology and Ellul’s technique, in a sense taking an empirical turn two
decades before Hans Achterhuis’s book.451 Durbin positioned Shrader-Frechette in the science
quadrant, with the provision that her concern for Rawlsian justice is at odds with a purely
descriptive approach. Carpenter is not situated in Durbin’s Watsonian scheme, though his
approach to sustainability policy would likely lead Durbin to place him in the same quadrant.
Light takes a more philosophical look at both technology and the environment. An
environmental pragmatist, he measured the relative success of the environmental ethics
enterprise primarily on its effectiveness in addressing contemporary environmental issues,
especially questions having to do with restoration. Durbin situated Light’s work as part of a
discourse that includes one group of voices that claim restoration is unnecessary, another who
approach environmental issues as environmental economists, a third group that is concerned with
“traditional” environmental ethics concerns such as interests and rights of non-humans (i.e., the
majority of the EE articles), a fourth composed of ecofeminists concerned with domination of
other humans and other animals, and a fifth that grants wild areas value on their own accord.
Watson’s framework in the hands of Durbin falters in his analysis of the “controversies”
that surround Light. Instead of providing a list of how the four quadrants should be filled, as he
451 Shrader-Frechette earned her bachelor’s degree in mathematics, a Ph.D. in philosophy, and had post-
docs in community ecology, economics, and hydrogeology.
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did for most individuals in his twenty-five chapter history of philosophy and/or technology,
Durbin wrote
Controversies in environmental ethics and philosophy of technology? Light is clear that he is a pragmatist (restoration ecologist). His website says he is opposed to the whole now-standard environmental ethics spectrum (whether we view this as a range extending from environmental economics to “deep ecology,” or as a left/right political spectrum), because it has “not achieved what it set out to accomplish.” But critics doubt that Light’s favored restoration ecology will work—or that it is even necessary. Ecofeminists want to deal with the strongly “symbolic” issues of false dichotomies. And, in the most fundamental challenge (in these terms) to environmental pragmatism, Callicott says it abandons the field, giving up on the effort to devise a defensible holistic or biocentric rather than human-centered philosophy—thus, by default, ending up with a human-centered view which will not lead to “pragmatic” solutions that match the environmental challenge.452
Three of the opponents seem to map well to Watson’s framework. The language of
environmental economics uses the “scientific” voice. Deep ecology is most consonant with
those following Platonic transcendence, wherein the day-to-day environmental phenomena that
humans experience reveals glimmerings of a holistic integrity missed by those who remain in the
Cave. The Protagorean perspective, though excluded from the summary quoted above, can
describe those who reject preservation and restoration.
When trying to situate Callicott and ecofeminists vis-à-vis Light, however, the
shortcomings of the framework become clear. In Durbin’s understanding, Callicott’s
biocentrism can be placed as an adversary of the Protagorean perspective, which would add
another dimension to Watson’s framework, or perhaps as pre-Protagorean, i.e., as one who
fundamentally challenges the Protagorean anthropocentric assumptions that frame Watson’s
entire architectonics. In the brief summary quoted above, the ecofeminists attention to
“symbolic” issues seems to place them in a Platonic quadrant, a strange place for an ecofeminist
philosopher such as Val Plumwood, whose “Mountains of Dualism” can be understood as a 20th
452 Durbin, Philosophy of Technology, 163.
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century sketch that supplants Plato’s Allegory of the Cave.453 The ecofeminist approach contains
a Protagorean measure, for ecofeminists adopt anti-methodical approaches and emphasize
individual lived experiences, the social construction of views of women and nature, and the
epistemic shortcomings of reductive modern science, whose practitioners tend to downplay or
ignore their own social situatedness. Alas, Durbin did not describe the hybrid of perspectives
that form the congruence of ecofeminists’ voices, especially to set it apart from Light and Durbin
himself. He appreciated the activism of ecofeminists and situated them as kindred spirits to him,
even if he thought their preoccupation with identifying and annihilating dualisms can prevent
them from achieving their environmental goals.
Where does Light fit in Durbin’s Watson-inspired scheme? The remaining category is
for those who work in an Aristotelian tradition, i.e., those “who stress method and discipline (in
the school subject matter or professional discipline sense), and who emphasize the pigeonholing
of objects within large encyclopedic schemes.”454 In the concluding essay of the book, Durbin
notes that only Carl Mitcham wrote in the Aristotelian tradition.455 Durbin proceeds to repurpose
the quadrant as a home for “Social Democrats” or “Progressives” and assigns Light to this
quadrant, though with some reservations.456
In this framework, my project is best understood as a Watsonian Aristotelian effort, and
as the chiral counterpart of Light’s project. Whereas Light triangulates philosophy and
technology, environmental philosophy, and praxis, the triad for this project is philosophy and
technology, environmental philosophy, and theoria. Such a claim is an oversimplification
453 Val Plumwood, Feminism and the Mastery of Nature (New York: Routledge, 1993), 3. 454 Durbin, Philosophy of Technology, 8. 455 Durbin differentiates his approach as more “creative” than Aristotle’s approach, which he thinks seems
to “pigeonhole” authors rather than to let them “have their own say” (8). 456 Durbin simply writes “And Andrew Light, at least in his environmental pragmatism, belongs here”
(219), without any clarifying account.
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according to Light’s pragmatist background—which sees praxis and theoria as deeply
intertwined—as well as to my own philosophical approach. Philosophers concerned with
technology and the environment are knee-capped if they refuse to respond to any external stimuli
because the artifactual and the non-human worlds permit a near infinite number of possibilities.
In order to say much, especially about ethical concerns, facts matter. Yet for an inquiry to be
properly philosophical in the sense that Plato uses to describe dogs in Republic, some theorizing
must be done. The most difficult decisions I made to winnow the project came from excluding
many articles on sustainability, appropriate technology, and energy from my analysis. These
topics are of political interest today and have the potential to contribute to more theoretical
understandings of how humans inhabit the world, yet they are usually approached in a way that
depends on and adds little to an appropriately complex notion of technology and nature. To put
it simply, these concerns mean more to Light, though they inform this project, and my project
may inform work on those areas.
Weaving between the Specializations
None of the contributions to RPT or EE show the kind of conversancy with the other
specialization that is necessary to give an adequate account of a philosophy of technology and
the environment that is conceptually rich enough to inform practice. One reason for this
shortcoming is the limited length of journal articles, which makes such an effort difficult. Yet
the absence can also be attributed to the gulf between the two academic communities, the
voluminous literature that has arisen over the last thirty-five years in each field; the empirical
turn in philosophy and technology and at least some shift toward policy turn in environmental
ethics or practical objectives457; and a general trend away from theoretical efforts toward those
457 Bryan Norton, Andrew Light, and Eric Katz are prominent supporters of the turn toward pragmatic
policy, which appears in EE most clearly in Robert Frodeman’s “The Policy Turn in Environmental Philosophy.”
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that are localized in space, time, and community,458 or, like Andrew Light’s work, directed
toward pragmatic goals. Larry Hickman’s admirable attempt to engage environmental
philosophers suffered from hyperspecialization—Dewey is taken as the standard against which
all measured—and a shallowness that necessarily arose because he took on four environmental
philosophers in a single article. One consequence of a lack of interaction between the
communities in the journals is that authors do not receive feedback from colleagues in other
specializations as part of the peer review process.
The aim for this section is to craft a brief reflection that integrates the two specializations
on the topics of freedom, ecology, and evolution. Articles in RPT/Techné and EE provide the
starting and inflection points for the reflection, but I also borrow from other sources from each
specialization to add depth and breadth. This approach forgoes the Aristotelian approach that
sets up comprehensive categories using some methodology that was used earlier in the chapter—
here I have no pretensions of the universality claimed by Watson, who thought he had developed
“the first truly useful taxonomy of all ideas,” or of the same import, namely “the most significant
philosophical discovery of the present century.”459 Instead, it begins from one specific
contribution, without the claim that this is the best or only starting point. It is motivated by
wonder or curiosity, rather than pragmatic aims—its telos is not the solution of a particular
problem—and the goal is deeper understanding, not generation of rhetorical support for a
political goal.460 It is successful to the extent that it adds depth or clarifies real or apparent
458 Cf. the many situated environmental issues, and more generally “The Empirical Turn in the Philosophy
of Technology,” edited by Peter Kroes and Anthonie Meijers, in the Research in Philosophy and Technology series and Hans Achterhuis’s American Philosophy of Technology: The Empirical Turn (Bloomington, Indiana: Indiana University Press, 2001).
459 Walter Watson, The Architectonics of Meaning: Foundations of the New Pluralism (Albany: State University of New York Press, 1985), back cover blurb and ix.
460 Aristotle, Metaphysics A, 982b12.
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aporias through a dialectical consideration of issues that intersect philosophy of technology and
environmental philosophy.
The title of Jacques Ellul’s “Nature, Technique and Artificiality” suggests that it is a
fitting starting point for thinking through issues that arise at the intersection of the two
specializations.461 In Ellul’s broader project, he had argued that in the past humans had gained
their freedom by subduing the demands of nature and by protecting themselves from its risks, but
this is not the case in the present, mechanized world. Ellul’s sociological analysis identifies an
inflection point between premodern and modern technology when technique surpassed the
machine, when all other values are diminished with respect to efficiency, which alone is granted
universal acclaim. A chasm exists between the machine and the primitive technologies that
preceded it. More primitive technologies were dependent on the guidance of a skilled operator
who could adjust the tool when raw materials varied or when a different product was desired.
Machines are designed to function the same way all of the time: given an expected input, they
create a consistent, precise product. They are “cookie cutters.” Compare a lathe to a specialized
tool found in a contemporary production line.
The human view of the non-human world is transformed by a worldview centered around
the machine. Among other things, “nature” provides the raw materials needed for the machine.
For machine performance to be optimized, raw materials must be continuously available, and
their characteristics must be within specifications. Oddities and localized variances in the so-
called “products” of nature that may have provoked wonder or led to the creation of a unique
product by a skilled craftsman begin to be seen as imperfections that can “gum up the works.”
The demand for consistent resources begins to determine agricultural patterns and the
461 Jacques Ellul, “Nature, Technique and Artificiality,” RPT 3 (1980): 159-171. The article is summarized
in Chapter 3.
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transportation system by which they can be moved. In an economy governed by this mindset,
conservation can be defended, but preservation has few defenders. The demands of the machine
explain an important force behind forestry management principles employed in the United States
that were criticized by Aldo Leopold for only optimizing yield without concern for non-
commercial species.462 Langdon Winner pointed out that the tomato population was transformed
by the development of the mechanical tomato harvester, which consequently resulted in the
breeding of tomatoes that are “hardier, sturdier, and less tasty” than what had previous been
available, all so they could work with the machine.463
Ellul’s critique goes further, though. La technique has surpassed the machine: it is no
longer just an “ensemble of means” to a particular productive end. Instead, it becomes “the
totality of methods rationally arrived at and having absolute efficiency (for a given stage of
development) in every field of human activity.”464 Machines are subjugated by technique, which
inherits only the demand for efficiency. In a similar way, humans are also subjugated by
technique: increasingly complex sociotechnical systems common in advanced economies
require a stable supply of dependable operators. Operators are ideally unskilled so that they are
readily available and interchangeable. Particular things and people are no longer worthy of
consideration, and humans are treated like machines when they no longer contribute—or, more
precisely, when they are no longer the optimum contributors—to a particular process. Then they
are discarded, perhaps retrained—or, one could say, retooled—or retired.
Ellul is most concerned with the imposition of technique into human activities such as
politics, science, and education. Technique turns what was “tentative, unconscious, and
462 Aldo Leopold, “The Land Ethic,” in A Sand County Almanac (New York: Ballantine, 1966), 237-264. 463 Langdon Winner, “Do Artifacts Have Politics?” Daedalus 109 (1) (Winter 1980): 126,
http://www.jstor.org/stable/20024652.
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spontaneous” “into the realm of clear, voluntary, and reasoned concepts” (20). The former
interfere with what is implied by technique, i.e., predictable, rational efficiency. While
individual humans do not lose their agency, the priority of technique entails a desire for
domination of what is natural, which includes those things that have their own ends, and for
optimal results such organization must occur the political level. Ellul’s pessimistic sociological
assessment has a corollary in environmental issues. The employment of humans without concern
for their individual attributes or long-term well-being common in the multinational economic
systems common today has a counterpart in commonly held attitudes toward use of
environmental “resources.” Ellul adopted the view that the world is best understood as though
this is truly the Anthropocene epoch, and thus ecology “should be correctly thought in terms of a
precise analysis of the technical world.”465
On the one hand, there is an element of truth in Ellul’s claim. It points toward the
scarcity of attention of the industrial and everyday environment in environmental ethics,
especially prior to rise of environmental justice as an area of philosophical interest. On the other
hand, Ellul’s claim indicates a lack of familiarity with the principles and history of the science of
ecology as it had developed in the twentieth century. Concerns over the romanticism of ecology
is a critique pertinent to ecology qua natural history, and, to a lesser degree, the ambiguous
holism of Clementian ecology. To some degree, population ecology, starting in the 1920s, and
ecosystem ecology, from the 1960s, which approaches the non-human, non-artifactual entities
through the tools of modern technoscience, already had answered Ellul’s charge. According to
biologist James H. Brown, “[Raymond] Pearl (1925), [A. J.] Lotka (1925), [Vito] Volterra
464 Ellul, The Technological Society, translated by John Wilkinson, New York: Vintage, 1964), xxv (italics
in original). 465 Ellul, “Nature, Technique and Artificiality,” 275.
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(1926), and others had laid the foundation of a mathematical theory for ecology,”466 an important
step toward a “technical analysis.” Ecosystem ecologists applied thermodynamic principles to
glean a better understanding of mass and energy movements in ecosystems. In his 1969 paper
“The Strategy of Ecosystem Development,” Eugene P. Odum described how to analyze a
biological community as “all of the organisms in a given area (that is, ‘community’) interacting
with the physical environment so that a flow of energy leads to characteristic trophic and
material cycles within the system,”467 which lent additional precision and method to ecology and
distancing it from its origins in natural history. To the extent that all objects can be subsumed
under these ecological principles to yield a “precise analysis of the technical world,” population
and ecosystem ecologists can be said to already have succeeded.
Ellul also made a category error by treating ecology as analogous to the physical
sciences, for which a “precise analysis” is possible. Whereas modern science typically proceeds
by isolating its object of inquiry, ecology recognizes the interdependence, reciprocity, and
mutuality of organisms. The completion of a “precise analysis” depends on stability of the
objects studied, but the changing populations, genetic constitutions, and the landscapes in which
organisms live creates a dynamism, the flux of nature, of which, to some degree, humans are a
part. As Callicott noted, a “field ontology” is more representative. While environmental
philosophers may err ascribing an anthropomorphic form of agency to animals and plants, there
is no doubt that they respond, learn, and assert themselves in unpredictable ways into our lives in
a way that inanimate objects cannot.
466 James H. Brown, “New Approaches and Methods in Ecology,” in Foundations of Ecology: Classic
Papers with Commentaries, edited by Leslie A. Real and James H. Brown (Chicago: University of Chicago Press, 1991), 447.
467 Eugene P. Odum, “The Strategy of Ecosystem Development,” Science 164 (18 April 1969): 262-270.
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Let me turn back to the concept of freedom, which in Ellul’s history first takes the form
of husbanding natural objects to satisfy needs and being safe from natural risks, and then in the
technological society takes the form of activity outside of la technique. Freedom can also be
understood as the opportunity to act voluntarily, that is, in a way not governed by instinct or
necessary. In her article on anthropotechnology and human evolution, Sylvia Blad argued that
what makes humans distinct are precisely those attributes that are not driven by the needs of
necessity encapsulated in Ellul’s first definition. She is not concerned with technique, but rather
freedom from the impositions of Darwinistic survival. Machines and other implements are part
of the “tool kits” that are integrated into human being: what they can do is no longer necessary
for humans to do, so freedom is manifested by the loss of capabilities “won” through evolution.
Compare this understanding of evolution with Callicott’s proposition that evolutionary
time provides the measure of the morality of an act in an ecological sense.468 Freedom is acting
against inclination when foresight indicates that the energy and material flows in nature will be
interrupted. Or think about Holmes Rolston, III’s lead article in the first issue of EE: nature is
given a stability that allows us to “follow it” as an orienting force that guides humans in finding
their place in the cosmos.469 For Rolston and Callicott, the proper exercise of freedom seems to
be limited by its consequences so as to not negatively affect other organisms any more than is
appropriate for a human.
In fine, we can construct a multidimensional understanding of freedom. From Ellul
freedom is understood as not being assimilated into technique. From Blad, freedom is acting
contrary to evolution, whereas with Callicott, moral freedom demands acting within its
boundaries. For Rolston, contrary to Ellul and Blad, the harms and threats of nature, along with
468 Callicott, “Deconstructive Ecology,” 353-372. 469 Rolston, “Can and Ought,” 7-30.
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its splendor and profundity, are not something that must be avoided, but they instead serve to
instruct and orient students.
The preceding chapter sketched out three different ways to integrate the two
specializations, a longitudinal analysis, a focus on contributors to both journals, and a reflection
on freedom, ecology, and evolution that integrates many important thinkers from both camps.
This certainly does not exhaust the options available. In the next chapter, I propose an ethical
construct based off of W. D. Ross’s ethical theory that is comprehensive enough to serve as a
basic framework for concerns of environmental philosophers and philosophers of technology.
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CHAPTER 6
ROSS’S DUTIES AS A COMPREHENSIVE ETHICAL THEORY
The goal of this chapter is to test the adequacy of a modified version of W. D. Ross’s
prima facie duties as a comprehensive ethical theory that can address issues of the environment
and technology. I am evaluating the theory against the standard expressed by Paul van Dijk, who
wrote in RPT that “the task of ethics and of an ethicist is to sharpen and accentuate the
conscience, to stretch moral fantasy, making people sensitive to the ethical aspects of the
problem situation [sic] at issue.”470 In my opinion, Ross’s theory has received less traction than
is due to it, perhaps in part because it starts from common perspectives and seeks to clarify them,
in part because it has no clever architectonic structure, and in part because it neither promises nor
delivers definitive answers to ethical questions.
The fluidity of our technological environment and the flux of nature, though, mitigate
against the possibility of deductive-nomological certainty and definitive answers, one in which a
combination of lawlike premises are combined with particular observations to explain a general
result or a specific event.471 As Albert Borgmann pointed out, as scientific inquiry has become
increasingly precise, it has lost its power to explain the relevance or significance of an event.
The technological-mathematical character of modern science can refine “pre-scientific”
generalizations about nature into predictive laws, but this narrow focus comes at a cost.
Epistemic claims are severed from metaphysics and ethics, and only a subset of such claims are
considered valid. Borgmann noted that that deductive-nomological claims neglect the “world-
470 Paul van Dijk, “Environmental Ethics and the Recovery of Culture,” RPT 17 (1998): 25-43. See the List
of Abbreviations for the shorthand used to refer to frequently referenced journals. 471 This explanation is inspired by Albert Borgmann’s explanation of the reasoning common in modern
science in Technology and The Character of Contemporary Life: A Philosophical Inquiry (Chicago: University of Chicago Press, 1984), 15-26.
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articulating and world-signifying” power of deictic explanations, which “outline and highlight
the crucial features of something that is also a kind of explanation.”472
Not just science is affected by this attenuation. The term technoscience, first used in a
context that explicitly takes ethical concerns into account by Gilbert Hottois in the 1970s,
describes the deep integration and reciprocal dependency of modern science and contemporary
technology.473 The term corrects a simplistic yet commonly held understanding of technology as
the application of science. Technological practices and devices are often thought to arise from
“pure” theory developed independently. This apparent one-way relationship was clearly
reversed in James Watts’s development of the steam engine, which preceded the science of
thermodynamics. Hans Jonas described the evolution of “modern science-infused technology”
as one in which “cognitive purpose” is eclipsed by the practical aim of doing work.474
Technoscience, which describes the imbroglio of what Aristotle would have separated into
techné and episteme, also attends to the social context in which the aims of different projects are
determined and carried out. Both technology and science, however they are split, share a
grounding of technoscience, one reason that the apodeictic explanations that yield greater
technological capabilities and ecological knowledge have advanced beyond the deictic
explanations necessary to understand their relevance and ethical value.
The lawlike structure associated with technoscience, along with its increasing precision,
obscures the character of techné component in technoscience. In Aristotle’s taxonomy of the
intellectual virtues, techné, along with phronesis, deals with “things that are capable of being
472 Borgmann, Technology and the Character of Contemporary Life, 25. 473 Gilbert Hottois, “Technoscience” in the Encyclopedia of Science, Technology, and Ethics 4, edited by
Carl Mitcham (Detroit: Thomson Gale, 2005), 1914-1916. Hottois developed the idea of technoscience in P&T in “Technoscience: Nihilistic Power Versus a New Ethical Consciousness” 3 (1987):69-84.
474 Hans Jonas, “Seventeenth Century and After: The Meaning of the Scientific and Technological Revolution,” in Philoosophical Essays: From Ancient Creed to Technological Man (New York: Atropos Press, 1980), 46-82.
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otherwise.”475 Since most technological projects affect natural objects, taken as a whole nature
also should be considered that which could be otherwise, even as individual organisms are still
properly considered physis, or beings that seek their own internally prescribed ends. Moreover,
human inclinations and our technological and natural environment should be understood as
having a trajectory, an inertia that must be taken into account that is missed if they are thought to
be static like a snapshot.476 The immeasurable number of possible technological milieus and
natural terroirs, our environment most broadly understood, suggest that a law-driven approach to
ethics of technology and the environment is bound to fail, that a moral act will depend on the
situation, and a moral theory must be responsive and comprehensive.
Ross’s duties provide a possible starting point for developing an overarching framework
that can situate ethics of technology and nature. There is some precedent for this synthesis.
Ross’s theory was explored in several articles in EE, and, though I found just a single passing
mention of him in RPT/Techné, his theory is briefly mentioned in the leading textbook on
Engineering Ethics,477 an area of professional ethics which is influenced by philosophy of
technology.
Ross’s duty ethics is malleable and more open to expansion to include issues of
technology and nature because Ross himself claimed no “completeness or finality” for his
divisions of prima facie duties.478 His refusal to ground his ethics in a single principle or to
construct a symmetrical architectonic makes his ethics responsive to human needs, desires, and
the state of the environment. To recognize duties that correspond to the built environment or to
475 Aristotle, Nicomachean Ethics, 1140a1. 476 This insight is an expansion from the claim made by Justus Buchler’s attention to exhibitive judgments
relayed by Roger J. H. King and discussed in Chapter 4. 477 Charles E. Harris, Michael S. Pritchard, Michael J. Rabins, Ray James, and Elaine Englehart,
Engineering Ethics: Concepts and Cases, fifth edition (Boston: Wadsworth, 2014), 32. 478 W. D. Ross, The Right and the Good, edited by Philip Stratton-Lake (Oxford: Oxford University Press,
2002), 20.
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non-humans, then, does not undercut his foundation, and it requires no major overhaul.
Moreover, while attentive to moral judgments of the common man and, especially, the moral
aristocrat, he also recognized the limitations of descriptive ethics. He noted that “many of the
most strongly felt repulsions towards certain types of conduct are relics of a bygone system of
totems and fetishes, their connexion with which is little suspected by those who feel them.”479
Historical and contemporary moral beliefs are instructive, not authoritative, and the recent
origins of EE and RPT/Techné suggest that their concerns were understated and less important at
the time when Ross wrote The Right and the Good, which was published in 1930, and when he
gave the Gifford Lectures at the University of Aberdeen from 1935-1936 that would be
published as Foundations of Ethics in 1939.480
To work through a possible synthesis of Ross’s duties and an ethics of technology and the
environment, I start by explaining Ross’s theory in some detail. Next I turn to his references to
animals and artifacts before looking at how he has been employed in EE and the philosophy and
technology literature, especially Tom L. Beauchamp and James F. Childress’s important
textbook on biomedical ethics. Then I consider how Ross’s theory can be extended to also
encompass future generations, non-human beings, and artifacts. Finally, inspired by the work of
Albert Borgmann and Shannon Vallor, I propose some new “communicative” or “ecological”
virtues.
Explanation of Ross’s Duty Ethics
Ross argued that what makes an act right is how well it satisfies the many prima facie
duties that an agent faces in any particular situation. Such duties emerge from morally
479 Ibid., 13. 480 Ross, The Foundations of Ethics (London: Clarendon Press, 1939).
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significant acts.481 These include duties that are based on one’s own previous acts, which he
called duties of fidelity, which includes telling the truth and communicating honestly, and duties
of reparation, i.e., restitution for damages that one has caused. Ross noted that fidelity is an
imperfect description of what he intends because it describes a state of mind, whereas the duty is
toward the act, regardless of the state of mind, and the duty arises simply because we have made
a promise or caused some injury.
A second division of duties arises based on acts done on behalf of an individual, which
Ross called duties of gratitude.482 Like fidelity, the term gratitude suffers the defect of referring
to a motivation, whereas Ross wanted to draw attention to the act, “the returning of services,
irrespective of motive.”483
Ross’s third division of duties is composed of are those that have to do with justice,
which demand that an agent act in such a way that happiness or pleasure coincide with merit.
Though “justice” is sometimes used to describe a motivation for action, it is also used to describe
acts irrespective of motive, unlike fidelity and gratitude, so this term needs less explanation.
Ross argued that virtue and pleasure, two intrinsic goods, must reasonably coincide by way of a
thought experiment in which one must prefer a world in which pleasure primarily resides on
those who are virtuous and pain on those who are vicious, rather than vice versa.
Two other divisions includes the positive duties of beneficence, i.e., to improve the lot of
another by virtue, intelligence, or pleasure, and the negative duties related to avoid causing harm
to others, non-maleficence. Virtue, intelligence, and pleasure are the three simple intrinsic goods
481 Ross, Right and the Good, 21. 482 Ross calls reparation and gratitude “twin duties.” 483 Ibid., 23.
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identified by Ross.484 Even though Ross listed non-maleficence last, he also explained that it
should generally have priority over beneficence, that is, as he put it, it is “prima facie more
binding. We should not in general consider it justifiable to kill one person in order to keep
another alive, or to steal from one in order to give alms to another.”485
Sandwiched between non-maleficence and beneficence are the duties to one’s own self-
improvement. It is positioned after the duties of beneficence because it is the promotion of
intrinsic goods of virtue and knowledge turned inward. It is important to note that no duty for
self-pleasure exists, even though pleasure is considered one of the intrinsic goods. Ross gave
two reasons to explain this seeming incongruity. First, the desire for pleasure is a natural
inclination, one that is pursued even if no reflection is made about duty. Second, the satisfaction
of the other duties, which usually benefit other actors, almost always comes at a cost of one’s
own pleasure. The natural inclination for pleasure is properly checked when “we think of our
own pleasure not as simply our own pleasure, but as an objective good, something that an
impartial spectator would approve,” it is at that point “that we can think of the getting it as a
duty; and we do not habitually think of it in this way.”486 To put it another way, pleasure is a
good when obtained through the joy of accomplishing some duty, and not all simple pleasures or
preference satisfactions fit in this category, though some may.
Prima facie duties differ from the more popular concept of duty that Immanuel Kant
derived from the relation of the reason and the will. Duties that arise from this concept, which
can be revealed by submitting a maxim to the test of the categorical imperative, always must be
followed for an action to be moral. They are absolute. For Kant, an act clearly has moral worth
484 In Foundations, Ross identified “the activity of the mind which leads to knowledge” as a good, as well
as artistic creation or excellence, which necessarily remains more loosely defined than scientific excellence (270). 485 Ross, Right and Good, 22. 486 Ibid., 26.
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if it arises from reason directing the will toward duty and away from self-interest and inclination.
The categorical imperative is simple, i.e., it is one law, so duties cannot conflict. If they were to
conflict, Kant’s project of finding universal imperatives would have failed.
All of Kant’s duties are universal, but he makes one important distinction between strict
or narrow (commonly called perfect) duties and broad (commonly called imperfect) ones.487
Perfect duties are absolute, i.e., they must always be followed, and they include telling the truth
and refusing to commit suicide even when life is bitterly unpleasant. Not fulfilling strict duties
does conceptual violence to the underlying actions: communication loses its internal purpose if
falsehoods may be peddled at any given time, and committing suicide acts against the more
fundamental, internal purpose of being. Imperfect duties should be pursued when possible, but
there are situations in which not fulfilling them is morally acceptable. The two imperfect duties
discussed by Kant in Grounding for the Metaphysics of Morals are to improve one’s self and to
aim to increase the happiness of others. Kant explains their categorical scope by saying that it is
impossible to will that not doing these things should “be implanted in us as such a law by a
natural instinct.”488
Ross followed Kant in setting duty in opposition to pleasure for one’s self or pursuing
one’s self-interest. Ross wrote “The performance of most of our duties involves the giving up of
some pleasure that we desire, the doing of duty and the getting of pleasure for ourselves come by
a natural association of ideas to be thought of as incompatible things.”489 He thought that, just as
Kant did, duties are revealed a priori, i.e., independent of experience. Yet other details of these
theories differ rather dramatically. Ross, who described absolute or universal duties, such as
487 Immanuel Kant, Grounding for the Metaphysics of Morals, translated by James W. Ellington, third
edition, (Indianapolis: Hackett, 1993), 423. 488 Ibid., 423. 489 Ross, Right and the Good, 25.
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those in Kant’s work as “duty proper,” used the term prima facie to describe the conditional
nature of his duties, though he is uneasy with the term.
The phrase ‘prima facie duty’ must be apologized for, since (1) it suggests that what we are speaking of is a certain kind of duty, whereas it is in fact not a duty, but something related in a special way to duty. Strictly speaking, we want not a phrase in which duty is qualified by an adjective, but a separate noun. (2) “Prima” facie suggests that one is speaking only of an appearance which a moral situation presents at first sight, and which may turn out to be illusory; whereas what I am speaking of is an objective fact involved in the nature of the situation, or more strictly in an element of its nature, though not, as duty proper does, arising from its whole nature.490
While my primary focus is on the normative elements of Ross’s theory and its extension to
technology and the environment, a brief description of his epistemology is helpful to understand
the preceding quotation. Ross was both an epistemological and a methodical intuitionist. He
held that we can have direct knowledge of moral truths. Ross’s duties have a real referent, that
is, they refer to objective moral knowledge, which he compares to the “spatial or numerical
structure expressed in the axioms of geometry or arithmetic.”491 They are real in a second sense:
“each rests on a definite circumstance which cannot seriously be held to be without moral
significance.”492 Ross’s duties are also pluralistic, lacking an ultimate principle or hierarchy that
can be used for an algorithmic application of the theory, a claim that situates him as a methodical
intuitionist. On this point, Ross was unapologetic: “Loyalty to the facts is worth more than a
symmetrical architectonic or a hastily reached simplicity.”493
The moral certainty described above only applies to the most fundamental moral
propositions can be known with any certainty. Particular judgments are rarely self-evident:
often prima facie rightness and wrongness coincide, and humans never know all the facts or all
the consequences. This recognition led Ross to another important distinction. He contrasted
490 Ibid., 20 (italics in original). 491 Ibid., 30. 492 Ibid., 20.
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what is right, i.e., what an individual decides to do with imperfect knowledge, and what is
morally good, i.e., what should be chosen if one were omniscient. Nonetheless, imperfect
knowledge does not discharge duty. Each duty is conditionally binding: it is “an act which
would be a duty proper if it were not at the same time of another kind which is morally
significant.”494 Though there is no single method by which one can organize prima facie duties,
he notes that “a great deal of stringency belongs to the duties of perfect obligation”: the duties of
keeping our promises, repairing wrongs we have done, and of returning the equivalent of
services we have received.495 I will return to the idea of stringency at the end of this chapter.
Ross’s duties can be situated between Kant’s sole concern with motive and act, with no
regard for consequences, and the singular focus on consequences of the hedonistic utilitarians,
with no concern for motive or act. Ross’s duties arise from recognition of the relevant features
of a certain state of affairs. Their satisfaction is not affected by motivation but rather by the
successful completion of the appropriate act, which then should obtain a fitting state of affairs.
Thus, consequences matter, but not exclusively, or as Ross put it, “no one means by ‘right’ just
‘productive of the best possible consequences’, or ‘optimific.’”496 Ross gives two situations in
which satisfying duties are not optimific. A promise should be fulfilled even if it does not lead
to optimum consequences, and justice overrides the desire of optimizing pleasure if it were to be
concentrated in vicious individuals.
While Ross did not take motivation into account when considering rightness, he does
when considering goodness. He wrote “for if we hold that actions are morally good when and
because they proceed from certain motives, we can hardly fail to ascribe moral goodness to those
493 Ibid., 23. 494 Ibid., 19. By duty proper Ross means Kant’s absolute duty. 495 Ibid., 41. 496 Ibid., 34.
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same desires when they do not lead to action.”497 So the same with desires and emotions as with
dispositions, or Ross called them, “permanent modifications of character.”498
Ross’s elevation of virtue, unfortunately, received little clarification in his work, which
was directed toward the epochal issue of determining moral rules and their justifications.
Unsurprisingly, as one of the most influential scholars on Aristotle in the first half of the
twentieth century, he uses Aristotelian concepts to describe virtue only in general terms, that
intellectual and moral virtues should be praised, and pace Kant, and can be cultivated in others,
and that one should follow the ideal person and strive develop a similarly lofty character. Ross’s
understanding of virtue differs from Aristotle’s because of the emphasis the latter gives to a
stable or ingrained disposition that is present when an act is done and then motivates it.499 Only
a courageous person can act in a courageous way; the same act done by a coward is not properly
called courageous. Aristotle’s virtue is thus called dispositional, whereas Ross’s understanding
is called occurrent-state because it prioritizes the act and gives secondary importance to
disposition. In my research, I found no list of virtues in Ross like those that appear in Aristotle’s
Nicomachean Ethics and Thomas Aquinas’s Summa Theologiae. This omission means that there
is no framework by which to test the “ecological” or “communicative” virtues that I propose at
the end of the chapter.
At this point, let me put Ross’s theory of prima facie duties in the background and bring
to the fore what he said and what has been said about his theory regarding issues of artifacts and
the environment.
Ross and Ethics of Artifacts and the Environment
497 Ross, Foundations, 290. 498 Ibid., 292. 499 Thomas Hurka, “Virtuous Act, Virtuous Dispositions,” Analysis 66, no. 1 (Jan. 2006): 69-76, doi:
10.1111/j.1467-8284.2006.00591.x.
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Though Ross does not specifically address environmental ethics or ethical or political
issues related to artifacts in The Right and the Good or in Foundations of Ethics, a thumbnail
sketch can be made by reading the former text closely and working with the meager resources
available. I then proceed to review how Ross’s theory, as it happens always taken from The
Right and the Good, was employed in the pages of EE. I was unable to find any serious
treatment of his work in RPT/Techné, or even in more theory-centric literature on technology in
general, though he receives mention in professional ethics. As mentioned earlier, Ross’s prima
facie duties are mentioned briefly in Harris et al.’s Engineering Ethics, and he plays a bit role in
Beauchamp and Childress’s prominent work on biomedical ethics, which is the best-developed
work in the most mature field of professional ethics.
In the first appendix called “Rights,” which follows the second chapter of the book titled
“What Makes Right Acts Right?” in The Right and the Good, Ross briefly mentioned infants,
who are complicated because they are “potential moral agents,”500 and animals. The former
hints at the issue of future generations, which is discussed at some length by Peter Wenz in EE,
and is necessary to account for the temporal duration and uncertainty of modern technology, and
the latter, as part of animal ethics, are clearly part of environmental ethics. The aim of the
appendix is to determine the relationship between duties and rights, and animals and infants
allow Ross to do that.
Ross noted that some have justified duties toward animals in an instrumental way, on
account of crafting a particular disposition in a human that might manifest itself in interpersonal
relationships. Ross’s reasoning was less oblique: “if we think we ought to behave in a certain
way to animals, it is out of consideration primarily for their feelings that we think we ought to
behave so; we do not think of them merely as a practising-ground for virtue. It is because we
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think of their pain as a bad thing that we think we should not gratuitously cause it.”501 Ross
adopted the position, hypothetically at this point, that while animals can have interests, and
humans can have duties toward them, they cannot have rights, which can only be claimed by
moral agents. Much later, in the chapter on the things that are intrinsically good, he definitively
stated that “the pleasure of animals is always good, and the pain of animals always bad, in itself
and apart from its consequences.”502 This is categorically true for animals, whereas it is not true
for humans, for which an assessment must include the complicating factors of just deserts, moral
good, or evil.
An incomplete sketch of Ross’s ethics of artifacts can be made from a few short
comments in The Right and the Good. In the same appendix cited previously, he wrote “I
suppose that the duty of the owner of a historic house is essentially a duty to his contemporaries
and to posterity; and he may also think it is a duty to his ancestors.”503 Artifacts and other
material things are, ceteris paribus, intrinsically good because they often yield pleasure.
Material things are valuable in a second instrumental way: the development of virtues, the best
of the intrinsic goods, often depends on material things. As Ross noted, “Virtue owes many of
its opportunities to the existence of material conditions of good and material hinderances to
good.”504
The seed of a politics of artifacts can be found in his concerns about justice, which
involved structural concerns as well as interpersonal obligations. “The sense of a general
obligation to bring about (so far as we can) a just apportionment of happiness to merit is often
greatly reinforced by the fact that many of the existing injustices are due to a social and
500 Ross, Right and the Good, 49. 501 Ibid., 49. 502 Ibid., 137. 503 Ibid., 49.
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economic system which we have, not indeed created, but taken part in and assented to; the duty
of justice is then reinforced by the duty of reparation.”505 It is possible to use the phrase “social
and economic system” in a broad sense that includes the built environment and the devices used
in it, though I see no reason to think that Ross did.
Ross has garnered attention in several articles in EE, two from contributors who had also
had articles published in RPT/Techné. In most cases, Ross was just mentioned in passing. Don
E. Marietta, in article that argued that “extreme holistic environmental ethics” is inadequate,506
agreed with Ross’s take that making a correct moral statement requires some luck, and Ross was
summoned simply as an authority to buttress Marietta’s claim, despite the fact that the article did
not mention Ross elsewhere. In “Individualism, Holism, and Environmental Ethics,”507
Shrader-Frechette developed a holistic anthropocentric and biocentric ethics in which “strong”
human rights, such as the right to life and bodily integrity, have priority over environmental
concerns, but weak human rights, such as property, are trumped by environmental concerns.
Ross, who stated that the just distribution of happiness based on merit is an intrinsic good, is
briefly cited as part of a critique of the ethical individualism of William Frankena.508 In Tom
Regan’s argument for the necessity of an environmental ethic, he criticized the risk of counting
on the moral judgments of “thoughtful and well-educated people,” which Ross thought must
form the starting point for any ethical theorist, though he said nothing more about Ross.509
William C. French employs Ross’s clarification of the difference between conditional and actual
504 Ibid., 141. 505 Ibid., 28. 506 Don E. Marietta, “Environmental Holism and Individuals,” EE 10, no. 3 (Fall 1988): 251-258, doi:
10.5840/enviroethics198810314. 507 Kristin Shrader-Frechette, “Individualism, Holism, and Environmental Ethics,” Ethics and the
Environment 1, No. 1 (Spring 1996): 55-69, http://www.jstor.org/stable/40338929. 508 Shrader-Frechette gives no citation for Ross. Ross connects a just distribution of pleasure based on
virtue (p. 140) as well as a just distribution of happiness based on merit.
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duties in his diagnosis of Paul Taylor’s defense of species equality, though again with no further
discussion of his duties.510
Two articles stand out for seriously engaging Ross’s theory. Robert Elliot, whose
“Faking Nature” article in Inquiry spurred a line of discussion of ecosystem restoration,511
including contributions by Eric Higgs in both EE and RPT/Techné, used Ross’s openness to the
coincidence of instrumental and intrinsic value as part of his metaethical defense of Rolston’s
explanation of systemic value. Rolston had claimed that since systemic value depends on yet
exceeds instrumental value, instrumental value can be said to be a source of intrinsic value. 512
The second paper, written by Peter Wenz, addressed the normative content of Ross’s theory,
which is the focus of this chapter. Wenz defended formalism in general and Ross’s duties in
particular as superior to contractarian and utilitarian ethical theories for addressing energy policy
issues for future generations.513 Wenz argued that the prima facie duties of nonmaleficence,
justice, and reparation can be extended to future generations and to possible people.
Nonmaleficence and beneficence check the (at least politically) undesirable conclusion that a
sudden shift in energy sources is necessary and moral, which would impose significant suffering
on humans alive now and in the near future. In a later paper, Wenz mentioned W. D. Ross’s
509 Tom Regan, “The Nature and the Possibility of an Environmental Ethic,” EE 3, no. 1 (Spring 1981): 19-
34, doi: 10.5840/enviroethics19813131; Ross, The Right and the Good, 41. 510 William C. French, “Against Biospherical Egalitarianism,” EE 17, no. 1 (Spring 1995): 39-57, doi:
10.5840/enviroethics199517135. Here he cites Lawrence Johnson’s species-ranking, which is based on “complexity, diversity, balance, organic unity or integrity,” in Johnson, A Morally Deep World: An Essay on Moral Significance and Environmental Ethics (Cambridge: Cambridge University Press, 1991), 227, as cited in French.
511 Robert Elliot, “Faking Nature,” Inquiry 25 (March 1982): 81-93, doi: 10.1080/00201748208601955. 512 Robert Elliot, “Instrumental Value in Nature as a Basis for the Intrinsic Value of Nature as a Whole,”
EE 27, no. 1 (Spring 2005): 43-56, doi: 10.5840/enviroethics200527140. 513 Peter S. Wenz, “Ethics, Energy Policy, and Future Generations,” EE 5, no. 3 (Fall 1983): 195-209, doi:
10.5840/enviroethics19835321.
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theory as expressing a moderate and not extreme pluralism taken metaphysically, but here Wenz
does not address Ross’s normative content.514
I found only one mention of W. D. Ross in RPT/Techné, a passing reference in Carl
Mitcham and René von Schomberg’s “The Ethics of Engineers: From Occupational Role
Responsibility to Public Co-Responsibility,”515 though the lack of indexing of early volumes and
online availability led me to use several peripheral inquiries to come to this conclusion. A search
on Google Scholar for W. D. Ross and technology led to no relevant results. Ross’s work is
given a few paragraphs in the “Deontology” entry in the Encyclopedia of Science, Technology,
and Ethics and in its successor, Engineering, Science, Technology, and Ethics: A Global
Resource, the most comprehensive reference books for the specialization, but Ross was not given
a standalone entry. The only relevant resource listed in the bibliographies, which are generally
extensive and excellent, is Beauchamp and Childress’s Principles of Biomedical Ethics, which is
usually considered primarily a work on professional ethics, not ethics of technology.
Ross’s prima facie duties seem to lurk behind Beauchamp and Childress’s identification
of respect for autonomy, nonmaleficence, beneficence, and justice as basic principles that can be
in conflict in Principles of Biomedical Ethics.516 Yet Beauchamp and Childress expend no effort
to explain the similarities and differences between their principles and Ross’s at either a
metaethical or a normative perspective. They do not explain why respect for autonomy should
be added to Ross’s list, and why duties of fidelity, reparations, gratitude, and self-improvement
are not relevant, or at least not relevant enough to be mentioned, in biomedical ethics. In their
514 Peter Wenz, “Minimal, Moderate, and Extreme Moral Pluralism,” EE 15, no. 1 (Spring 1993): 61-74,
doi: 10.5840/enviroethics199315140. 515 Carl Mitcham and René von Schomberg, “The Ethics of Engineers: From Occupational Role
Responsibility to Public Co-Responsibility,” RPT 20 (2000): 170. 516 Tom L. Beauchamp and James F. Childress, Principles of Biomedical Ethics, sixth edition (New York:
Oxford University Press, 2009), 13-15.
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chapter “Moral Theories,” Ross’s prima facie duties are mentioned only as converging with
Richard Brandt’s rule utilitarianism, which they explain by the generally accepted norms of
common morality, and Kantianism is the only deontological theory treated at length.517 In their
chapter on “Method and Moral Justification,” Ross is cited as an authority in agreement with
their claim that “no one has attained a fully specified system of norms for health care ethics,” in
part to justify their acceptance of “disunity, conflict, and moral ambiguity as pervasive features
of the moral life.”518 The recklessness with which Beauchamp and Childress make their
universal claim about norms for health care ethics, and their lack of concern for evidence, is
representative of their superficial approach to Ross’s duties.
Extending Prima Facie Duties
Hans Jonas cited the “scale and causal range” of technological practice as what makes
modern technology “too big for the size of the stage on which it is enacted.”519 Such power, he
argued, exceeds traditional spatiotemporal scales that had bounded traditional actions and their
respective ethical scope. The success of technological advances has put incredible pressure on
the biosphere, Jonas said, before connecting an ethics of technology to environmental ethics,
which he defined as “the expression of this unprecedented widening of our responsibility, which
in turn answers to the unprecedented widening of the reach of our deeds.”520 One measure of an
ethical theory is whether it has the resources to scale to consider citizens from around the globe
and future generations, non-human organisms, the abiotic environment, and the built
environment. In the following section, I put Ross’s prima facie duties to the test for each of
extension.
517 Ibid., 343-349. In my opinion, the authors overstate Ross’s rejection of utilitarianism (362). 518 Ibid., 373-374. 519 Hans Jonas, “Technology as a Subject for Ethics,” Social Research 49:4 (Winter 1982): 893,
http://www.jstor.org/stable/40971222.
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Extending to a Global Citizenship and Future Generations. To address the global scope and
lasting effects of modern technologies, Ross’s duties must be able to include all living people
today as well as future generations. Such an expansion is necessary to respond to sustainability
concerns, the global spread of pollutants, and long-term waste issues, such as nuclear waste. I
start by tracing the reasoning behind Wenz’s limited application of Ross’s duties to energy
policy to see how well it accommodates future generations. Then, I take a more comprehensive
approach to determine which of the duties are applicable to a global citizenry and future
generations.
In his argument against the use of nonrenewable resources and the generation of
hazardous wastes, Wenz argued that “formalists maintain we intuitively accord human beings the
right to remain unharmed,”521 from which the duty to non-maleficence arises. The prohibition
against causing harm is not qualified by a certain limited temporal span, i.e., harm is prohibited
not just now but also in the future, a line of reasoning by which Wenz extended the prima facie
duty to include an obligation to future people.522 The obligation can also be extended to possible
people, those who may or may not be born based on circumstances, “at least to some extent.”523
On this point, his reasoning is convoluted. After claiming that through moral intuition most
people would say that non-existence is preferable to living below a minimal quality of life, he
claimed that “causing such people to exist is, therefore, changing them from a more to a less
enviable state.”524 I remain unconvinced that any state can be assigned to non-existence.
Fortunately, the problem of identity, which undergirds the possible people argument, is less
520 Ibid., 895. 521 Wenz, “Ethics, Energy Policy, and Future Generations,” 204. 522 Concern about possible people is Wenz’s, not Ross’s. While Ross mentioned “potential moral agents,”
his comments only refer to a class of existing agents who will likely gain moral status at some point, not to potential agents.
523 Wenz, “Ethics, Energy Policy, and Future Generations,” 204. 524 Ibid., 205.
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relevant because the duties of non-maleficence to future generations hold regardless of the
individual.
In addition to non-maleficence, Wenz also extends duties related to justice and reparation
to future generations and possible people. By assuming that the interests of all humans deserve
equal consideration, he argued that duties of justice are owed to future persons on account of
their humanity. Possible people should be considered as well, because if this were not done
“some possible people could be actualized whose benefits and burdens differ greatly from others
in their society.”525 According to Wenz, duties of reparation also extend to future and possible
people. He argued that “since the duty of reparations requires that compensatory benefits be
accorded those who have been harmed, we thus owe future and possible people new technologies
and energy sources that will enable their lives to be as good as they would have been had we not
consumed the nonrenewable resources or buried the hazardous waste in the first place.”526
Wenz’s assignment of the duties of non-maleficence to future generations seems true at
first—a time lag does not discharge responsibility for an act, for even a bullet takes some time to
reach its target—but upon more reflection it becomes more problematic. Some of the difficulty
arises due to Wenz’s problematic argument that non-existence can be compared and may be
preferable to different states of existence. His illustration of the moral intuition that possible
cases of spina bifida should be avoided, whether it be right or not, collapses important
differences between degrees of harm. The need to claim primacy for protecting the existences of
people in future generations becomes important when determining the relative stringencies of
different duties.
525 Ibid., 206. 526 Ibid., 206.
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Moreover, assigning a non-absolute primacy to not terminating existence permits other,
less severe degrees of maleficence to be balanced by satisfied duties of beneficence. Wenz’s
conception of beneficence is an oversimplification of the more complex notion in Ross. Wenz
correctly defined the duties of benevolence as the duties to “maximize intrinsic good,”527 yet the
duty to foster the trinity of virtue, knowledge, and pleasure, along with their complexes, is
reduced shortly thereafter to the duty to “maximize total well-being”528 in an argument that
follows utilitarian reasoning. Maximizing pleasure or preference-satisfaction does not satisfy
this goal.
Though Ross said that bad things should not be brought upon others, it is still just a
conditional duty. If it is accepted that some acts lead to both benefit and harm, then some
appraisal of the benefits and harms, again, excluding termination, is necessary to determine if
justice, defined by Ross as the just distribution of intrinsic goods according to merit, has been
met. Though no quantitative analysis is possible, it seems impossible not to say that an increase
in virtue or knowledge is not worth slight discomfort for an individual, whereas no such increase
can be judged to be worth the end of his life or serious impairment by an outsider. One must
take into account the overall store of intrinsic goods, of virtue, knowledge, and pleasure, and of
their opposites, viciousness, ignorance, and pain. In addition, it will be shown that the
assessment of merit, which is rarely easy, becomes nearly impossible.
Two other challenges arise when applying duties of non-maleficence and beneficence,
and thus justice, globally and to future generations. First, most goods and harms result from
collaborative effort of a group of people, and rarely do all deserve the same amount of credit or
blame. Others may have the opportunity to halt a project, even though they are not active
527 Ibid., 206. 528 Ibid., 207.
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participants in it. Still others may have been influential in creating the conditions in which the
project took place. The difficulty of assigning responsibility in such situations is called the
problem of many hands.
Second, the problem of assigning agency has its counterpart in the inability to know who
the patients will be. This affliction affects contemporaries to a degree. For future generations,
the time lag between act and effect makes it is impossible to know which individuals and groups
will be harmed in the future, or even if anyone will be harmed, because they do not exist yet.
The problems arising from the temporal distance between the act and the possible harm is clear
when reparations are considered. Accepting a properly complex understanding of non-
maleficence and beneficence, it seems impossible to judge whether the general “states of mind”
are worse, and reparations are required, much less to determine who is deserving and how to
transfer different benefits. The same difficulties are found in the assignment of merit.
Ross’s attention to the “social and economic system” in which injustices may arise,
though, suggests that a structuralist assessment may be possible, and if the inertia and the
inherited impact of these systems are considered, one may construct duties to people far removed
in space and time. Ross’s secondary concern about the optimific, a measure of overall well-
being that is not to be disregarded even if it does not have the same importance or always
coincide with the right, suggests that taking structuralist concerns into account is appropriate.
Accepting the structuralist perspective is necessary to shift from duties of the individual to duties
of society, to shift from ethics to politics, a shift in which the individual may not have the moral
potency to transform goodness into right, even given the proper judgment. Yet even this step is
not sufficient. One of Ross’s criticisms of the “ideal utilitarian” is that it does not discriminate
against individuals when a duty is owed to some but not others, and this same problem afflicts
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Ross when applied to future generations. A more sophisticated sense of justice is necessary to
deal with future generations and possible people.
Duties of fidelity and gratitude only affect future generations indirectly because it is not
possible for them to earn increased consideration when duties conflict. For far-flung
contemporaries, the duties of fidelity that deserves top priority are interpersonal agreements with
an international scope, because they are entered into voluntarily by the individual, followed by
treaties and other agreements made by nation-states. Duties of gratitude, similarly, may exist on
an interpersonal level today, and have corporate manifestations in the relations between nation-
states. Economic, intellectual, environmental or military support that one state has provided for
another may affect the right act to do in a particular situations. Duties of self-improvement,
which apply only to the individual, obviously do not affect future generations or the global
citizenry.
Duties of non-maleficence, and above all, the obligation for maintaining existence,
should be given priority when considering global citizens and future persons. Yet given the
problem of many hands and the uncertainty inherent in technological projects and our lack of
predictive powers of the environmental responses and their affects on humans, any kind of
justice seems to be more a function of luck than reason, a limitation that Ross admitted even
without taking such complications into account. In such cases, moral goodness, which depends
on desires, emotions, and dispositions, becomes more important than moral rightness.
Extension to Organisms. While neither EE nor RPT/Techné provides much guidance on how
non-human living beings should be considered in the prima facie duties, Ross himself provided
minimal guidance on sentient animals. As mentioned earlier, he noted that while animals cannot
have rights, they can possess or be dispossessed of the intrinsic good of pleasure, which implies
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at least a duty of limited non-maleficence and beneficence to them. While two divisions of
duties, the duties of fidelity, whose linguistic foundation only obligates humans, and the self-
referential duties of self-improvement, which can only be possessed by a moral agent, have
nothing to do with animals, the other divisions deserve a closer look. The section concludes with
a brief reflection on the more limited obligations owed to non-sentient organisms.
The fundamental duties owed to sentient non-humans are duties of non-maleficence. A
prima facie duty to neither end the existence of or inflict pain upon other sentient beings is
consistent with Ross’s theory. The obligation is more binding for sentient beings whose
cognitive capabilities approach those of humans, for it is commonly held that higher levels of
consciousness experience suffering in more profound and enduring ways, and less binding for
simpler organisms. Since harm can be done, the duties of reparation also hold, at least in cases
in which the sentient being that was harmed still exists. A duty satisfied by therapeutic surgery
or pain management for an animal that was injured as the result of human actions, especially if
they are intentional, may also arise. For animals that are intentionally killed, the duty requires
the agents to seek to minimize the pain of the animal.
Whether duties of reparations are transferred to other members of the community, to
other members in an animal’s genetic line, or to the species as a whole, is much murkier. The
simplest case seems to be animals that form relational bonds with other animals that were broken
without good reason. It seems reasonable that humans have the obligation to provide other
opportunities for the animals who lost a companion to have opportunities to form new relational
bonds. Unlike the case with humans, it does not seem that any duty of reparation can survive a
death and be satisfied by an act that increases the pleasure or decreases the pain of another
sentient being in the sufferer’s genetic line, except when the genetic health of a species is
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considerably improved by such an effort, a condition which is rarely known. Even in this case,
though, reparation is blurred with beneficence. Since Ross focused on the act that was
accomplished, not the motivation, the latter seems to be a better descriptor. The same problem
with calling an act a reparation to another individual in a genetic line applies to the species as a
whole. Such shortcomings seem to sever the common association between reparation and
restoration in cases of habitat degradation and destruction. Habitat restoration is further
complicated because it includes sentient, non-sentient, and abiotic elements. I address these
topics in more detail in the section on stringency.
The duties of beneficence are less binding to sentient beings than the duties of non-
maleficence are. Most clearly, as I noted earlier, there is no good reason not seek to ensure that
animals experience pleasure, all other things being equal, which seems to be true for domestic
and wild animals. While animals are not moral agents, which makes virtue inapplicable, a non-
moral excellence can be developed, at least for domesticated animals. Pet owners seem to have
some responsibility to make sure that the animals are given instruction to keep them from hurting
other animals, including humans, with some qualifications, and to fulfill appropriate needs for
humans. On this last point, I am thinking of seeing eye dogs. By understanding merit as an
excellence, rather than by limiting it to moral virtue, the duties of justice also hold some claim on
an individual moral agent. He or she can distribute pleasure or further training in a manner that,
absent an invocation of justice, would be considered unjust. To understand knowledge as an
intrinsic good for animals requires a redefinition of knowledge or at least a more sophisticated
approach to intrinsic and instrumental value in animals than I can provide.
Duties of gratitude are also pertinent for sentient beings, claim that is true even if one
holds a strong anthropocentrist position. Animals increase the pleasure many experience.
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Pleasure can arise from aesthetic appreciation, such as what birders pursue, in the relational
affection given by domesticated animals, or in the wonder evoked by encounters with
charismatic megafauna. Their observation can contribute to a better understanding of what our
surroundings consist of and how they function, an increase in knowledge that can be passed
down to future generations. Our interactions with them can also provoke a self-knowledge that
has intrinsic value. They also indirectly provide pleasure through their participation in the web
of ecosystem services that keep humans (as well as other animals and other organisms) alive.
The only relevant duties that I recognize toward non-sentient organisms are those of non-
maleficence. For these beings, the prohibition against inflicting pain does not make sense, but
the organism can be harmed if it no longer exists. Each existence has some value, but the claim
for non-sentient organisms is a far weaker claim than the one that arises from the existence of
sentient beings. A stronger duty can be assigned to non-sentience beings, say, for one who
adopts the reasoned claim made by Hans Jonas that “the organic even in its lowest forms
prefigures mind, and that mind even on its highest reaches remains part of the organic.”529 If this
position is adopted, a duty of gratitude may arise to non-sentient beings that are still somehow
connected with all other beings.
The nuance provided by Ross’s prima facie duties aligns with commonly held moral
intuitions for interaction between humans and non-humans. One can argue that one can and
should value all living beings without being forced into the conclusions that Paul Taylor reached
when extending Kantian to duties toward animals.530 An appeal to relevant duties permits giving
priority to humans over animals without giving humans carte blanche. Among different species
529 Hans Jonas, The Phenomenon of Life: Toward a Philosophical Biology (Evanston, Illinois:
Northwestern University Press, 2001), 1. 530 Paul W. Taylor, Respect for Nature: A Theory of Environmental Ethics (Princeton: Princeton University
Press, 1986).
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of animals, we can prioritize those that have higher cognitive abilities. Ross’s duties give us
reason to protect monkeys while eradicating mosquitos, though how to extend such concerns
beyond individuals to genetic lines or species is not immediately obvious.
Extension to Artifacts. According to Ross, the value of material objects is instrumental. The
objects themselves have no states of mind, so they cannot experience any of the three simple
intrinsic goods or their complexes. Ross noted that most clearly, material objects result in
pleasure, one of the three simple intrinsic goods. Pleasure arises in many ways such as through
the convenience, comfort, aesthetic enjoyment, and experiences they make possible or intensify.
They directly and indirectly satisfy basic material needs of food and shelter, which is a way of
supporting the existence of others, the most fundamental sense of beneficence or non-
maleficence. Material things are the objects of a great deal of knowledge, whether rigorously
obtained through the scientific method or through less formal observation, especially in the
present epoch of technoscience. The often unintended consequences, such as pollution and
habitat degradation, are understood as maleficence, and their possibility led Jonas to promote a
new categorical imperative: “Act so that the effects of your action are compatible with the
permanence of genuine human life.”531
Duties of gratitude and fidelity often arise from the creation or use of material things,
which are also commonly used to satisfy those duties. Especially when harm is physical,
reparations are often satisfied by transferring material things. Distributive justice deals
primarily with material things. In all of these cases, material objects are merely the means by
which duties are satisfied, and the obligation is always owed to a being.
531 Hans Jonas, The Imperative of Responsibility: In Search of an Ethics for a Technological Age (Chicago:
University of Chicago Press, 1984), 11.
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Most interestingly for this project, Ross also noted that some virtues depend on material
things. The context of Ross’s claim that “virtue owes many of its opportunities to the existence
of material conditions of good and material hindrances to good” makes evident that he is simply
claiming that it is necessary for material goods to exist for virtues to be practiced.532 He only
hypothetically granted some duty toward the historic house mentioned earlier. Duties that appear
to be owed to the house are actually owed to contemporaries and future generations, whose
pleasure or knowledge can be said to be increased above what they would have been had the
owner allowed the house to fall into disrepair. It is not at all clear how one can have a duty to
ancestors in Ross’s framework, even though he suggests the possibility, unless ancestors retain
states of mind after they die.
When Ross’s theories are applied to contemporary life, two shortcomings are noticed.
This is unsurprising, for The Right and the Good and Foundations of Ethics were both written in
the 1930s, when technological tools and a technological way of understanding the world were
not as prevalent. Both books also predate philosopher Martin Heidegger’s “Question
Concerning Technology,” sociologist Jacques Ellul’s la technique, and historian-turned-critic of
technology Lewis Mumford’s work by two decades. The first shortcoming is that Ross treated
the material environment as one that simply existed, not one that is actively and reactively
shaped by humans, a position expressed clearly by scholars who attend to the social construction
of technology.
The position that technology is socially constructed, rather than determined, gained
prominence in the 1980s, first through Wiebe E. Bijker and Trevor J. Pinch’s study on the
evolution of bicycles. Rather than arising from progression toward an objective standard, they
showed how relevant social groups determined the specifications that became commonly
532 Ross, Right and the Good, 141.
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accepted.533 Bruno Latour proposed actor-network theory to conceptualize interactions between
humans, non-human natural beings, and artifacts.534 Latour proposed that a network better
captures the interrelatedness between “actants” than linear causal chains do, and it collapses a
strict separation between subject and object and agent and patient that are common contemporary
thought. Building off the work of earlier social constructivists and Michel Foucault, Peter-Paul
Verbeek has developed the moral dimension of this line of thought, arguing that moral analysis
should take into account human-technology associations rather than considering humans as
individual moral actors, separate from their artifacts.535
The second shortcoming of Ross’s theory arises from the first. Ross’s view is that
artifacts, along with other material objects, create the necessary conditions for some virtues, is
correct but not complete: a more sophisticated inquiry reveals that not all artifacts contribute to
goodness in the same way, that some artifacts tend to inspire virtue and others increase vice
among their users. Ross usually makes no finer delineation between the “intellectual and moral
virtues” in either of his books on his ethical theory. If nothing else, consideration of how the
traditional virtues apply in the contemporary setting is necessary. I argue that conventional
virtues need to be buttressed with communicative or ecological virtues that accord with the
contemporary setting.
Some Contemporary Techno-Environmental Virtues
While Ross’s ethical theory would have been improved if he offered additional details
about the intellectual and moral virtues he advocated, it is unlikely that he would have identified
533 Trevor J. Pinch and Wiebe E. Bijker, “The Social Construction of Facts and Artifacts: Or How the
Sociology of Science and the Sociology of Technology Might Benefit Each Other,” in The Social Construction of Technological Systems, edited by Wiebe E. Bijker, Thomas P. Hughes, and Trevor J. Pinch (Cambridge, Massachusetts: The MIT Press, 1987).
534 Bruno Latour, Science in Action (Cambridge, Massachusetts: Harvard University Press, 1987). 535 Peter-Paul Verbeek, Moralizing Technology: Understanding and Designing the Morality of Things
(Chicago: University of Chicago Press, 2011).
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the virtues proposed in this section, largely because he paid much less attention to how things,
natural and artifactual, shape the ground on which we assess and act. Yet given the importance
he placed on virtue, the greatest of intrinsic goods, I think it likely that he would consider how
virtue relates to artifacts were he alive today. From Albert Borgmann, a frequent contributor to
RPT/Techné, I borrow the guidance that can be found by focal practices and things. From
Shannon Vallor, I take three communicative virtues that seem to be in shorter supply now. I also
propose three new virtues attuned to the technological society in which we live.
Borgmann offered some guidance for designers, producers, and users of technology in his
critique of the device paradigm and his advocacy of focal events and practices. He is especially
relevant to my inquiry since his work and the responses to it have been cited in the introduction
to Technology and the Good Life? by Eric Higgs, Andrew Light, and David Strong as the locus
around which the specialization of philosophy of technology developed. The editors note that
Borgmann “addresses questions of nature and environment, rather than restricting reform of
technology to built space and artifacts, thus exceeding the traditional purview of the field.”536
His work, like this project, blends philosophy of technology with environmental philosophy,
though the latter is rudimentary.
Borgmann offered a Heideggerian-inspired critique of the “device paradigm.” Heidegger
was concerned with the hidden yet prevalent en-framing that technology enabled and
encouraged, which excluded dimensions of human existence that were not quantifiable and
controllable. A technological perspective led first to seeing all things of the world as standing
reserve, and finally to seeing other humans, and then one’s self, as the same. According to
536 Eric Higgs, Andrew Light, and David Strong, eds. Technology and the Good Life? (Chicago: University
of Chicago Press, 2000), 12.
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Borgmann, the fundamental difference between modern technology and premodern technology is
seen as the difference in devices and things.537
Compare the features of an iPod, a device, to a saxophone, a thing. The production of
devices is severed from their sale and use. They are commodified, a term Borgmann used to
describe the disruption of social, temporal, and spatial continuities that accompany devices. The
manufacture of the iPod itself is a discontinuous enterprise, occurring in China, Taiwan, and the
Phillipines.538 The people that sell iPods are separated from the people who make them, and few
of the people who make them purchase them or are in contact with their users. Devices are
interchangeable, designed to function regardless of their surroundings. Their performance
demands no skill on the part of their users. They share many of the same attributes of machines
as described by Ellul, which was discussed in the previous chapter.
Things, on the contrary, respect the continuities in which humans, non-humans, and their
artifacts co-exist. They demand skill and engagement of their users. A saxophone in the hands
of someone without training is useless, and it is useless when the user is not employing his or her
skill. The value of the saxophone, moreover, can be amplified in its setting and by collaboration
with other musicians, e.g., when employed as part of a jazz quartet.
Things tend to lead us to what Borgmann calls focal events and practices, which differ
from the “off-the-shelf,” “plug-and-play” experiences that devices make possible, and Borgmann
claims that the richer experience of things is more rewarding and has greater value than what can
be derived from utilizing devices. Borgmann illustrated focal events and practices by contrasting
a run through a natural area, which connects the runner to his or her environment, perhaps
537 “Thing” is a somewhat unfortunate word choice in English. Though it reflects a certain simplicity, its
generic nature tends to ignore the important attributes that make things different. 538 Hal R. Varian, “Who Really Makes the iPod?” New York Times, June 28, 2007. nytimes.com, accessed
February 14, 2015.
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offering observations of animals to an observant eye, with a run on the treadmill, and by
contrasting a Roman-length dinner with a thoughtfully crafted guest list and ingredients carefully
selected and prepared, sourced locally when possible, to a meal available at MacDonald’s.
Borgmann aimed to draw attention to the tradeoffs that accompany the use of devices, which are
often unnoticed, because artifacts shape the contours of the decisions people make.
Borgmann identified nature as a “challenge” to technology, a line of inquiry pursued by
Borgmann’s student David Strong in RPT and EE. Borgmann argued that “nature in its wildness
attains new and positive significance within the technological setting”539 because it has resisted
the “approach to reality that was based on science, developed in engineers, and primarily
practiced in factories.”540 Borgmann recognized a “universal eloquence” in nature that speaks in
defense of deictic discourse, which is excluded from a technoscientific framework for
conversation. This eloquence is summoned in the wildness poetry of Henry Bugbee, who hired
Borgmann at the University of Montana, and Borgmann concluded that “discourse of nature can
hope finally to be successful only if it abandons the conceptual outposts and bulwarks and allows
nature to speak directly and fully in one’s words.”541 It is through its experience that time and
space no longer are annihilated but rather regain their expansiveness.
Borgmann’s urge to vet technologies based on whether they contribute to virtue shares
common ground with Ross’s emphasis of virtue over pleasure. In addition, the conditional
nature of Ross’s prima facie duties works well with Borgmann’s analysis. Borgmann never
claims that devices are always to be avoided, but rather, all things being equal, it is better to use a
thing such as a saxophone rather than a device such as an iPod. Neither Borgmann nor Ross give
hard-and-fast rules about when an artifact or moral situation are good or bad, but instead both
539 Borgmann, Technology and the Character, 182. 540 Ibid., 184.
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urge the practitioner to employ practical judgment to determine the relevant features of a
particular situation.
Vallor argued that new social media tend to encourage habits that are vicious, i.e., they
interfere with Aristotelian excellence of character.542 She wrote that Aristotle’s traditional
virtues need to be supplemented with the “communicative virtues” of patience, honesty, and
empathy. The immediacy of new social media, which is one of the promises of technology in
general, and the ease of exit from challenging or unpleasant conversations discourage the
development of patience. Vallor proposed that the virtue of honesty, “the willingness to put
one’s authentic self in play,” is put at risk by the separation of the physical self and the messages
expressed by its many avatars. A similar separation occurs through many technologies, when
consequences are often far removed, temporally, spatially, and culturally, from ends. The virtue
of empathy, which has no clear antecedent in Aristotle’s writing, is also put at risk by mediated
communication for it is not purely cognitive. It has an emotional dimension that technologically
mediated dialogue often attenuates. The lack of interpersonal interaction is an analogue to a non-
existent or always mediated experience of nature. Vallor’s communicative virtues and her
assessment of new social media, which makes no categorical claims, are also congruent with
Ross’s conditional prima facie duties.
In addition to the communicative virtue developed by Vallor and the guidance of focal
activities offered by Borgmann, I propose three other virtues that must be cultivated to live well,
i.e., to be right and good. These virtues have to do with what we notice, how we act, and which
skills we develop.
541 Ibid., 187. 542 Shannon Vallor, “New Social Media and the Virtues,” in The Good Life in a Technological Age, edited
by Philip Brey, Adam Briggle, and Ed Spence (New York: Routledge, 2012), 193-202.
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The first is an expanded version of prudence or practical judgment (phronesis), the queen
of the virtues that is the art of correctly judging what is relevant in a particular situation. In the
contemporary environment, the traditional virtues must be include a technoscientific dimension.
Technology can distort as it intermediates. As Don Ihde argued, humans must be able to
integrate and discriminate between various technologies and scientific information in order to get
a right read of the technological and ecological world. For a true read, a complete adequatio rei
et intellectus, an individual must integrate sense perception with scientific information, itself
normally technologically mediated, to make proper decisions about which technologies to
design, build, and utilize. This virtue incorporates what Jonas called a “heuristic of fear” to
properly weigh the possible but often understated or unanticipated negative consequences of
technology against its anticipated benefits.543
The second virtue necessary today is the skilled use of technology, the moral virtue most
closely related with the virtue of thought just described. The virtue is more important in cultures
in which technology is ubiquitous and less so in more primitive societies, though it is valuable in
almost all in which humans are homo faber. The virtue applies to technologies that require a
skilled operator, and development of the virtue requires that humans seek such tools rather than
relying simply on machines.
The third virtue that must be developed is attentive response. By attentive response, I
mean an attentiveness to the actual outcomes of technological projects, which can vary from
expectations, coupled with the appropriate response when deviations are encountered.
Deviations are often missed or characterized as anomalies because the planning and
implementation phases of a technological project fix an expected result in the mind. By this, I
also mean having an attentive disposition to ecological issues, matched by the capabilities, as
543 Jonas, Imperative of Responsibility, 26.
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best as one can possess, to respond in a proper way when ecosystems are disturbed. This virtue
attempts to reintegrate the natural actants in Latour’s actor-network theory that are absent from
Verbeek’s human-technology hybrids, and it extends Ross’s analysis beyond systems to include
the same actants in an interrelated web. The virtue encapsulates the dual senses of care, toward
natural and artificial objects, that are fused by Terri Field,544 and includes an action, not just a
disposition.
I have grouped Ross’s duties into three levels based on his preferences.545 The first is the
general duty to non-maleficence, which should generally be considered a litmus test for whether
an act is right or not. The second level consists of fidelity, reparations, and gratitude. Such
duties depend on specific acts, so they trump the more general obligations of the third level. The
duty of fulfilling a promise generally trumps a duty of beneficence, even if the person to whom a
promise is owed would benefit more if some other act were completed. The third level includes
duties to self-improvement, beneficence, and justice. It seems to me that beneficence, at least the
pursuit of knowledge and virtue, and self-improvement deserve a slight preference over the
obligation to justice due to the additional complexity of justice, which depends on an accurate
assessment of merit, often over a number of individuals. Pleasure should occupy the lowest
position on this level. These levels apply first and foremost to a tier that includes present and
future humans.
The second tier includes concern for sentient beings, with concern offered on a spectrum
from most to least cognitive ability. The relation of the human tier to the sentient being tier
depends on one’s environmental perspective. A strong anthropocentrist using Ross’s scheme
would place it below pleasure. A weak anthropocentrist would likely place it somewhere along
544 Terri Field, “Caring Relationships with Natural and Artificial Environments,” EE 17, no. 3 (Fall 1995):
307-320, doi: 10.5840/enviroethics199517320.
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the second or third levels, i.e., they would generally keep their promises to other humans even if
the life of some animal were at stake, but they would not usually value human pleasure over an
animal’s existence. A biocentrist would position it even with the human tier. Generally, priority
should be given to the welfare of individuals, who can enjoy pleasure or pain, rather than
species, though species welfare, including population and genetic well-being, can be considered
as a second-order concern and overall ecosystem health a third order concern.
The third tier includes abiotic things, which includes natural and artifactual beings, which
are unworthy of concern per se. The former deserve respect insofar as they contribute to the
well-being of humans or other living beings, and the latter deserve concern insofar as they
contribute instrumentally to the welfare of humans, especially when they lead to virtue or
knowledge, and other living beings.
The preceding illustrates the upsides and downsides of using Ross’s framework, which
allows the relative weight of different obligations to vary based on the situation that is faced. On
one hand, this flexibility allows one to explain why ecosystem or planetary health may trump
other concerns. On the other hand, the principles do not allow for a deductive defense of specific
policies or decisions, especially for those that consider non-human welfare. Having said that,
however, I believe that many people would make better decisions or judgments were they to take
the different duties and tiers of duties into account, even if they are not forced to. The composite
system also takes into account the broader ecologies—a term derived from Greek oikos,
household or family—which includes organisms, abiotic elements, and artifacts in which humans
operate in a way that most other ethical theories do not.
Fused with Ross’s prima facie duties, the traditional and newly proposed virtues offer a
relatively comprehensive ethical theory that can address the issues associated with the
545 Ross, Right and the Good, 26-28.
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technoscientific culture common in most industrialized countries today, though it cannot address
all of them. Most problematic seems to be the difficulty of incorporating concern for species and
ecosystem health into Ross’s agent-oriented framework. At best a weak justification can be
made for preserving natural areas. Yet without the possibility of such experiences, what David
Strong called “disclosive discourse” with nature cannot take place, and its “universal eloquence,”
to use Albert Borgmann’s term, goes unperceived. It is through such experiences that the prima
facie duties and their binding force are grasped. Finally, the emphasis that Ross puts on “states
of mind” lends itself to a perplexing assessment of restoration.
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CHAPTER 7
EPILOGUE
I put the concepts and tools of social epistemology to use to construct a mapping of the
individuals and ideas that have overlapped in the pages of RPT/Techné and Environmental
Ethics, two long running, prestigious journals. Such an effort was necessary because the
specializations of philosophy of technology and environmental philosophy, even though they
were birthed at the same time, have developed without much cross-pollination despite the fact
that the concepts and principles behind them are interrelated. Philosophical efforts can provide
clarity to the cacophony of voices used in public discourse, yet it has been largely lacking to
date. This work is one contribution to the intellectual tapestry, and one that shows the rough
outline of points of intersection and areas in which a counterpart may be missing.
The constellations charted in the third and fourth chapters can be mapped according to
the following figure.
Ch. 3: Nature (Physis) in RPT/Techné Ch. 4: Technology (Techné) in EE Nature Seen Historically Techné Seen Historically
At the Intersection of Nature and Techné Making and the Natural World Science, Technology, and Nature Science, Technology,
Technoscience, and Nature Religion and Transcendence Religion and Transcendence
Politics and Policy Aesthetics of Artworks
Figure 2. Correlation of Constellations in RPT/Techné and EE.
The constellations were allowed to arise naturally based on a survey of the articles, rather than
trying to fit them into a metaphysics/ontology/epistemology/ethics/politics schema or something
similar. The term constellation was used to indicate the weak connection between articles that
demands the viewer to project some form on the data, one that may be disputed. Clear discourse
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lines that would be expected to arise in academic discourse, especially around a specific topic,
were rarely found within a specialization, much less between them. Efforts to use tools such as
Web of Science™ and Google Scholar™ were frustrated because the fundamental articles in
both journals predate the earliest articles indexed by the former. Moreover, RPT has not been
digitized and is not indexed. The discontinuities of the publications of the Society for
Philosophy and Technology also hindered longitudinal and cross-specialization comparison.
In spite of the lack of interaction in ideas and individuals between the specializations,
constellations found in each specialization overlap a good deal. A closer inquiry at each reveals
many interesting lines for future research, especially once the initial limitation of topics and
journals that guided this investigation is relaxed.
The historical articles in RPT/Techné included articles on the use of the term nature that
spanned Western intellectual history from the ancient Greeks and Romans to a present definition
that is experimental and severed from concerns about origins. The corresponding articles in EE
took a different tack: they had to do with the rhetoric of decline—Heidegger’s critique should
simply be considered the latest in a series of laments that stretches back to the Greeks—and how
anthropological history should be understood. In this case, even though the articles are grouped
under the same title, there is no granular overlap, and worthwhile contributions can be made in
all areas.
Articles on religion and transcendence all focused on Lynn White, Jr.’s “The Medieval
Roots of our Ecologic Crisis” article from Nature. None of the articles from either journal
complemented the quality of White’s historical interpretation: what they noted was that it had
become fixed in the cultural memory in spite of its inaccuracies, and it deserved some credit for
drawing attention to a time period that was often overlooked. Opportunities for future research
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include a more careful look at how other world religions consider technology. Resources in
Asian religions, into which modern science and technology was adopted or transformed, may
prove fruitful. A reconstruction of the influence of Christianity, technology, and the
environment in Jewish and Christian thought that takes into account subsequent scholarship and
is not tied to a critique of White may be beneficial.
The closest connection and overlap between constellations on both sides were articles
that dealt with modern science, technoscience, or nature. This is also the area that has the best
developed discourse lines. The majority of the articles on both sides deal with Heidegger’s
critique of technology and science, or the offshoot promulgated by Albert Borgmann. The
overlap between these constellations is best suited to a specific inquiry using Randall Collins’s
approach. Such an effort can put the addendum or correction, the “yes, and” or “no, but” form of
discourse analysis to the test. A comprehensive and multifaceted view of the dialogue can likely
be constructed from the process of doing so.
There was less overlap than I expected between two of the constellations, the “At the
Intersection of Physis and Techné” in RPT/Techné and “Making and the Natural World” in EE.
Articles in RPT/Techné specifically addressed philosophical issues of technology and the
environment, motivated in part by the two theme issues mentioned above, though I view these
efforts as largely unsuccessful and rather superficial. Had they been successful, then they would
have been the departure point for my inquiry. The EE articles differed in a significant way: they
largely focused on “low church” technology, what would be called in the RPT/Techné literature
something like technics. Articles in EE raised interesting issues involving environmental art,
design and ecology, and how artifacts can influence environmental ethics by returning to the
premodern sense of craft. These veins of thought, which lack any complement on the
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RPT/Techné side, perhaps because the distinction between premodern and modern technology is
used to explain why the latter is worthy of a different kind of philosophical reflection, seem
particularly promising for further investigation. Likewise, an explicit attempt at a philosophical
inquiry that combines physis and techné may be fecund for environmental philosophers, and I
hope that my ecumenical effort will contribute to this end.
Interestingly, RPT/Techné articles on policy and politics, including sustainability, paid
more attention to the conceptual and theoretical issues involved with nature than those on the EE
side did with technology, where technology was implicitly “black-boxed,” that is, understood
without concern about details. A monolithic understanding of technology runs counter to the
shift in the philosophy of technology literature, which has increasingly focused on the details of
particular technologies in order to generate an appropriately sophisticated analysis of the
technologies. The focus on specifics, away from technology with a capital “T,” has been called
the empirical turn.
While EE lacked a sophisticated sense of technology in its discussion of politics and
policy, it possessed an interesting vein of articles that connect aesthetics of artifacts and nature
arose that had no cross-specialization corollary in RPT/Techné. My sense is that this is one area
in which the discontinuity between artifacts and nature is such that attempting to generate an
RPT/Techné extension will result in little or no fruit, especially since the understanding of the
world as a machine has generally been eclipsed by that of an organism.
Whereas the third and fourth chapters focused on mapping the constellations, the fourth
and fifth emphasized the points of overlap or lack thereof. Far more can be done with the basic
material on individuals who contributed to both specializations. One could look at the character
of the different articles to see how similar concerns were presented to different. A separate
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inquiry focused on the individuals who published more than one article in each specialization
that considers their entire corpora would yield another perspective on the overlap between
environmental philosophy and philosophy of technology. The list of individuals whose articles
to RPT/Techné found in Appendix B can contribute to an analysis that is broader than what was
attempted by me here. I nod to the institutions that supported the dual contributors, especially
since both specializations struggled to gain legitimacy, but this information deserves a more
systematic analysis.
I responded to the lack of overlap found between the journals with the riff that begins
with Ellul’s RPT article as an example to show how dialectical thinking between the
specializations can take place when the specializations, and by evaluating W. D. Ross’s ethical
theory as a comprehensive ethic that can fuse environmental, technological, and traditional
ethical concerns. These original efforts are first steps in what is hopefully a long journey for
myself and others who wish to delve into such topics.
The topical overviews that I crafted in the third and fourth chapters should enhance the
self-understanding of both specializations, and the inquiry as a whole may point out some
opportunities for further research. To the degree that my approach was adequate, it depended on
the role of journals in the late 1970s until the present. As the number of journals has
proliferated, the amount of information tends to lead to more specialized inquiries, a trend that
runs opposite to the synthesis at which I aimed. It will be interesting to see how these changes
shape academic inquiries over the next academic generation of these specializations and whether
they regain a broader perspective and a public voice.
200
Research in Philosophy and Technology
1978-1985, Series Editor Paul T. Durbin
Vol. 1 (1978). Greenwich, Connecticut: JAI Press.
Vol. 2 (1979). Greenwich, Connecticut: JAI Press.
Vol. 3 (1980). Greenwich, Connecticut: JAI Press.
Vol. 4 (1981). Current Bibliography in the Philosophy of Technology: 1975-1976. Compiled by
Carl Mitcham. Greenwich, Connecticut: JAI Press.
Vol. 5 (1982). Greenwich, Connecticut: JAI Press.
Vol. 6 (1983). Greenwich, Connecticut: JAI Press.
Vol. 7 (1984). Greenwich, Connecticut: JAI Press.
Supplement 1 (1984). Jacques Ellul: A Comprehensive Bibliography. Compiled by Joyce Main
Hanks. Greenwich, Connecticut: JAI Press.
Vol. 8 (1985). Greenwich, Connecticut: JAI Press.
1988-1994, Series Editor Frederick Ferré
Supplement 2 (1988). Paul Levinson’s Mind at Large: Knowing in the Technological Age.
Greenwich, Connecticut: JAI Press.
Vol. 9 (1989). Ethics and Technology. Guest editor Carl Mitcham. Greenwich, Connecticut: JAI
Press.
Vol. 10 (1990). Theme: Technology and Religion. Greenwich, Connecticut: JAI Press.
Vol. 11 (1991). Theme: Technology and Politics. Greenwich, Connecticut: JAI Press.
Vol. 12 (1992). Theme: Technology and the Environment. Greenwich, Connecticut: JAI Press.
201
Vol. 13 (1993). Theme: Technology and Feminism. Guest editor Joan Rothschild. Greenwich,
Connecticut: JAI Press.
Vol. 14 (1994). Theme: Technology and Everyday Life. Guest editor George Allan. Greenwich,
Connecticut: JAI Press.
1995-2002, Series Editor Carl Mitcham
Vol. 15 (1995). Social and Philosophical Constructions of Technology. Greenwich, Connecticut:
JAI Press.
Supplement 3 (1995). Leonard J. Waks’s Technology’s School: The Challenge to Philosophy.
Greenwich, Connecticut: JAI Press.
Vol. 16 (1997). Technology and Social Action. Greenwich, Connecticut: JAI Press.
Vol. 17 (1998). Technology, Ethics, and Culture. Greenwich, Connecticut: JAI Press.
Vol. 18 (1999). Philosophies of the Environment and Technology. Guest editors Marina Paola
Banchetti-Robino, Don E. Marietta, Jr., and Lester Embree. Greenwich, Connecticut: JAI
Press.
Supplement 4 (1999). Noel Gray’s Stains on the Screen: The Geometric Imaginary and Its
Contaminative Process, with a Design Bibliography by Gerhard Banse. Greenwich,
Connecticut: JAI Press.
Vol. 19 (2000). Metaphysics, Epistemology, and Technology. New York: JAI, an Imprint of
Elsevier Science.
Vol. 20 (2001). The Empirical Turn in the Philosophy of Technology. Guest editors Peter Kroes
and Anthony Meijers. New York: JAI, an Imprint of Elsevier Science.
202
Vol. 21 (2002). Sport Technology: History, Philosophy and Policy. Guest editors Andy Miah and
Simon B. Eassom. New York: JAI, an Imprint of Elsevier Science.
Philosophy and Technology
1983-1994, Series Editor Paul T. Durbin
Vol. 1 (1983). Philosophy and Technology. Edited by Paul T. Durbin and Friedrich Rapp.
Originally published as Boston Studies in the Philosophy of Science, vol. 80. Dordrecht:
Kluwer.
Vol. 2 (1986). Philosophy and Technology II: Information Technology and Computers in Theory
and Practice. Edited by Carl Mitcham and Alois Hunning. Originally published as
Boston Studies in the Philosophy of Science, vol. 90. Dordrecht: Kluwer.
Vol. 3 (1987). Technology and Responsibility. Papers from the 1985 SPT Conference at the
University of Twente. Edited by Paul T. Durbin. Dordrecht: Kluwer, 1987.
Vol. 4 (1988). Technology and Contemporary Life. Papers from the 1985 SPT Conference in
Twente.. Edited by Paul T. Durbin. Dordrecht: Kluwer, 1988.
Vol. 5 (1989). Technological Transformation: Contextual and Conceptual Implications. Papers
from the 1987 Technology Transfer and the Third World conference at Virginia Tech..
Edited by Edmund F. Byrne and Joseph C. Pitt. Dordrecht: Kluwer, 1989.
Vol. 6 (1990). Philosophy and Technology: Practical, Historical, and Other Dimensions. Edited
by Paul T. Durbin. Dordrecht: Kluwer, 1989.
Vol. 7 (1990). Broad and Narrow Interpretations of Philosophy of Technology. Edited by Paul
T. Durbin. Dordrecht: Kluwer, 1990.
203
Vol. 8 (1991). Europe, America, and Technology: Philosophical Perspectives. Includes papers
from a 1990 symposium on Ivan Illich at the Pennsylvania State University and some
supported by an NSF grant on "Basic Research on Ethics and Values Education in
Science and Technology.” Edited by Paul T. Durbin. Dordrecht: Kluwer, 1991.
Vol. 9 (1992). Democracy in a Technological Society. Includes papers from a 1989 Society for
Philosophy and Technology conference in Bordeaux, France. Edited by Langdon Winner.
Dordrecht: Kluwer, 1992.
Vol. 10 (1993). Philosophy of Technology in Spanish Speaking Countries. A collection of
translations and some new papers. Edited by Carl Mitcham. Dordrecht: Kluwer, 1993.
Vol. 11 (1994). New Directions in the Philosophy of Technology. Papers from the 1991 SPT
Conference in Mayaguez, Puerto Rico. Edited by Joseph C. Pitt. Dordrecht: Kluwer,
1995.
Journal of the Society for Philosophy and Technology
1995-1997, Series Editor Paul T. Durbin
Vol. 1, no. 1/2 (Fall 1995). Symposium: Philosophy and Technology after Twenty Years/Papers
from 1993 Peniscola (Spain) Meeting. Electronic quarterly.
Vol. 1, no. 3/4 (Spring 1996). Papers from Valencia, Spain, and Hoftstra University biennial
conferences. Electronic quarterly.
Vol. 2, no. 1 (Fall 1996). Electronic quarterly.
Vol. 2, no. 2 (Winter 1996). Papers from Ninth International Conference of SPT (Puebla,
Mexico). Electronic quarterly.
Vol. 2, no. 3/4 (Spring-Summer 1997). Electronic quarterly.
204
1997-1999, Series Editor Pieter Tijmes
Vol. 3, no. 1 (Fall 1997). Dutch Chandeliers of Philosophy of Technology. Electronic quarterly.
Vol. 3, no. 2 (Winter 1997). Papers from Dusseldorf Meeting. Electronic quarterly.
Vol. 3, no. 3 (Spring 1998). Electronic quarterly.
Vol. 3, no. 4 (Summer 1998). Electronic quarterly.
Vol. 4, no. 1 (Fall 1998). Papers from International Academy of the Philosophy of Science,
Karlsruhe, Germany 1997 Meeting. Guest editors Evandro Agazzi and Hans Lenk.
Electronic quarterly.
Vol. 4, no. 2 (Winter 1998). Papers from International Academy of the Philosophy of Science,
Karlsruhe, Germany 1997 Meeting. Guest editors Evandro Agazzi and Hans Lenk.
Electronic quarterly.
Vol. 4, no. 3 (Spring 1999). Papers from International Academy of the Philosophy of Science,
Karlsruhe, Germany 1997 Meeting. Guest editors Evandro Agazzi and Hans Lenk.
Electronic quarterly.
Vol. 4, no. 4 (Summer 1999). Papers from International Academy of the Philosophy of Science,
Karlsruhe, Germany 1997 Meeting. Guest editors Evandro Agazzi and Hans Lenk.
Electronic quarterly.
Techné: Journal of the Society for Philosophy and Technology
2000-2003, Series Editor Davis Baird
Vol. 5, no. 1 (Fall 2000). Joseph C. Pitt's Thinking about Technology: Foundations of the
Philosophy of Technology. Guest editor Paul T. Durbin. Electronic journal.
Vol. 5, no. 2 (Winter 2000). Electronic journal.
205
Vol. 5, no. 3 (Spring 2001). Electronic journal.
Vol. 6, no. 1 (Fall 2002). Albert Borgmann's Holding On to Reality. Guest editor Phil Mullins.
Electronic journal.
Vol. 6, no. 2 (Winter 2002). Understanding Technological Function: Introduction to the special
issue on the Dual Nature programme. Guest editor Sven Ove Hansson. Electronic
journal.
Vol. 6, no. 3 (Spring 2003). Electronic journal.
Vol. 7, no. 1 (Fall 2003). Larry Hickman's Philosophical Tools for Technological Culture. Guest
editor Paul T. Durbin. Electronic journal.
Techné: Research in Philosophy and Technology
2003-2007, Series Editor Davis Baird
Vol. 7, no. 2 (Winter 2003). Electronic journal.
Vol. 7, no. 3 (Spring 2004). Special Collection: Pragmatist Ethics in the Technological Age.
Guest editor Jozef Keulartz. Electronic journal.
Vol. 8, no. 1 (Fall 2004). Research in Ethics and Engineering. Guest editor Michiel Brumsen &
Sabine Roeser. Electronic journal.
Vol. 8, no. 2 (Winter 2004). Electronic journal.
Vol. 8, no. 3 (Spring 2005). Nanotech Challenges, Part 1. Guest editors Davis Baird and
Joachim Schummer. Electronic journal.
Vol. 9, no. 1 (Fall 2005). Education and Citizenship in the Digital Age. Guest editors Darin
Barney and Aaron Gordon. Electronic journal.
Vol. 9, no. 2 (Winter 2005). Electronic journal.
206
Vol. 9, no. 3 (Spring 2006). Citizenship Engagement and Biotechnology. Guest editors David
Castle. Electronic journal.
Vol. 10, no. 1 (Fall 2006). Electronic journal.
Vol. 10, no. 2 (Winter 2006). Paul T. Durbin's In Search of Discourse Synthesis. Guest editor
Paul T. Durbin. Electronic journal.
Vol. 10, no. 3 (Spring 2007). The Conundrum of Virtual Places. Guest editor Erik Champion.
Electronic journal.
2007-2012, Series Editor Joseph C. Pitt
Vol. 11, no. 1 (Fall 2007). Electronic journal.
Vol. 12, no. 1 (Winter 2008). Electronic journal.
Vol. 12, no. 2 (Spring 2008). Postphenomenology: Historical and Contemporary Horizons.
Guest editor Evan Selinger. Electronic journal.
Vol. 12, no. 3 (Fall 2008). Electronic journal.
Vol. 13, no. 1 (Winter 2009). Electronic journal.
Vol. 13, no. 2 (Spring 2009). Artefacts in Analytic Metaphysics. Guest editors Wybo Houkes
and Pieter Vermaas. Electronic journal.
Vol. 13, no. 3 (Fall 2009). Electronic journal.
Vol. 14, no. 1 (Winter 2010). Electronic journal.
Vol. 14, no. 2 (Spring 2010). Electronic journal.
Vol. 14, no. 3 (Fall 2010). Electronic journal.
Vol. 15, no. 1 (Winter 2011). Electronic journal.
Vol. 15, no. 2 (Spring 2011). Electronic journal.
207
Vol. 15, no. 3 (Fall 2011). Phenomenology and Classroom Computer Simulation. Electronic
journal.
Vol. 16, no. 1 (Winter 2012). Feminism, Autonomy & Reproductive Technology. Electronic
journal.
Vol. 16, no. 2 (Spring 2012). Electronic journal.
Vol. 16, no. 3 (Fall 2012). Electronic journal.
209
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––––––. "Technological Frames in a Town Planning Controversy: Why We Do Not Have to
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Allan, George. "Environmental Philosophizing and Environmental Activism." RPT 12 (1992):
119-127.
––––––. "Introduction." RPT 14 (1994): 3-8.
––––––. "Making the Everyday." RPT 14 (1994): 175-188.
Allchin, Douglas. "Thinking about Technology and the Technology of 'Thinking about.'"
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Alonso, Andoni, Inaki Arzoz, and Nicanor Ursua. "Critical Remarks on Rural Architecture and
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––––––. "Reflections on Architecture: Vernacular and Academic Modes in Architecture and
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Alvarez, Adelaida Ambrogi. "Sociological Studies and Philosophical Studies: Twenty Years of
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211
Álvarez, Asunción. "Three Memetic Theories of Technology." Techné: RPT 9 (2005).
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Anderson, Lyle V. "Cybernetics, Culpability, and Risk: Automatic Launch and Accidental War."
Philosophy and Technology: Practical, Historical, and Other Dimensions. P&T 6 (1989):
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Angel Quintanilla, Miguel. "The Design and Evaluation of Technologies: Some Conceptual
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Araya, Agustin A. "Changed Encounters with Things and Ontological Transformations: The
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––––––. "Experiencing the World Through Interactive Learning Environments." JSPT 3 (1997):
61-74.
––––––. "The Hidden Side of Visualization." Techné: RPT 7 (2003): 74-119.
Arbulu, Jose Felix Tobar. "Plumbers, Technologists and Scientists." RPT 7 (1984): 5-17.
Arisaka, Yoko. "Modernity, Technology, and Difference." RPT 16 (1997): 145-151.
Asveld, Lotte. "Informed Consent in the Fields of Medical Technological Practice." Techné:
RPT 10 (2006): 16-29.
Baigrie, Brian S. and Patricia J. Kazan. "Biotechnology and the Creation of Health Care Needs."
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Bailey, Lee W. "Skull's Darkroom: The Camera Obscura and Subjectivity." Philosophy and
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Baird, Davis. "Encapsulating Knowledge: The Direct Reading Spectrometer." JSPT 3 (1998):
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––––––. "Note from Editor - on Giuseppe Del Re, Technology and the Spirit of Alchemy." JSPT
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––––––. "Notes From The Editor: On Joachim Schummer, Challenging Standard Distinctions
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––––––. "Organic Necessity: Thinking about Thinking about Technology." Techné: JSPT 5
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––––––. "Scientific Instrument Making, Epistemology, and the Conflict between Gift and
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––––––. "Thing Knowledge - Function and Truth." Techné: JSPT 6 (2002): 96-105.
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Baird, Davis and Joachim Schummer. "Editorial: Nanotech Challenges, Part I." Techné: RPT 8
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––––––. "Editorial: Nanotech Challenges, Part II." Techné: RPT 8 (2005): 1-2.
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Baldine, Joanne. "Is Human Identity an Artifact? How Some Conceptions of the Asian and
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Banchetti-Robino, Marina Paola. "Hermeneutic Technics: The Case of Nuclear Reactors." RPT
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Buell, John. "The Politics of the Common Good." RPT 11 (1991): 105-117.
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Bunge, Mario. "Can Science and Technology Be Held Responsible for Our Current Social Ills?”
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––––––. "Development and the Environment." Technological Transformation: Contextual and
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Burke, John P. "Comments on Bernard Gendron's ‘Technology, Democracy, and the Work
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Byrne, Edmund. "Humanization of Technology: Slogan or Ethical Imperative?” RPT 1 (1978):
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––––––. "Law as Technology Assessment." RPT 5 (1982): 101-115.
––––––. "The Normative Side of Technology: Philosophy and the Public Interest." RPT 2
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––––––. "Microelectronics and Workers' Rights." Philosophy and Technology II: Information
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Philosophy of Technology in Spanish Speaking Countries. P&T 10 (1993): 81-87.
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Cerezo, José Antonio López and Carl Mitcham. "The Social Assessment of the Technology
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Cerezo, José Antonio López and Marta Gonzales Garcia. "Lay Knowledge and Public
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222
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224
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Technology and Responsibility. P&T 3 (1987): 261-277.
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225
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Damarin, Suzanne K. "Technologies of the Individual: Women and Subjectivity in the Age of
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Dauenhauer, Bernard P. "Rouse's Knowledge and Power: A Note." RPT 11 (1991): 179-182.
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226
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Dietrich, Eric. "Cognitive Science and the Mechanistic Forces of Darkness, or Why the
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Responsibility. P&T 3 (1987): 151-172.
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Dreyfus, Hubert L. "From Socrates to Expert Systems: The Limits of Calculative Rationality."
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Embree, Lester. "Personal Environmental Phenomenology, or the Examination of Electric
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Technological Society. P&T 9 (1992): 105-121.
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Garnar, Andrew. "Portable Civilizations and Urban Assault Vehicles." Techné: JSPT 5 (2000):
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Garnar, Andrew Wells. "Hickman, Technology, and the Postmodern Condition." Techné: RPT
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Gascoigne, Neil. "Philosophy contra Sociology." RPT 16 (1997): 139-144.
Gasparski, Wojciech. "Design Methodology: A Personal Statement." Philosophy and
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Goldman, Michael. "Against Feyerabend: The Meaning of Progress in Science." RPT 3 (1980):
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Goldman, Steven L. "Philosophy, Engineering, and Western Culture." Broad and Narrow
Interpretations of Philosophy of Technology. P&T 7 (1990): 125-152.
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Gorokhov, Vitaly. "A New Interpretation of Technological Progress." JSPT 4 (1998): 16-27.
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173.
Gray, Chris Hables. "The Culture of War Cyborgs: Technoscience, Gender, and Postmodern
War." RPT 13 (1993): 141-163.
Gray, Elizabeth Dodson. "Parenting Technology." RPT 14 (1994): 59-68.
Gray, Noël. "Geometric Constructions and the Constructions of Geometry." RPT 15 (1995): 21-
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Groothuis, Douglas. "Bacon and Pascal on Mastery over Nature." RPT 14 (1994): 191-203.
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Guilmet, George. "Incontinence and Biomedicine: Examples from Puyallup Indian Medical
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Guilmet, George M. "The Effects of Traditional Eskimo Patterns of Cognition on the Acceptance
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Hahn, Robert. "Technology and Anaximander's Cosmical Imagination: A Case-Study for the
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New Directions in the Philosophy of Technology. P&T 11 (1995): 95-138.
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Hamilton, Edward and Andrew Feenberg. "The Technical Codes of Online Education." Techné:
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Hardman, Alun. "Evaluating Changing Sport Technology: An Ethnocentric Approach." RPT 21
(2002): 135-155.
Harney, Maurita. "Computation and Gender." RPT 13 (1993): 57-71.
Harrison, Frank R., III. "The Judeo-Christian Tradition and Crises in Contemporary
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Hartley, Peter. "Kelly and the Wheelies." RPT 17 (1998): 127-139.
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Hehir, J. Bryan. "The Relationship of Moral and Strategic Arguments in the Defense Debate."
RPT 3 (1980): 367-383.
Hennig, Jochen. "Changes in the Design of Scanning Tunneling Microscopic Images from 1980
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