Petrography of an unknown granitoid body in the Blue Ridge ... · the granitoid suggest a fault may...
Transcript of Petrography of an unknown granitoid body in the Blue Ridge ... · the granitoid suggest a fault may...
Petrography of an unknown granitoid body in the Blue Ridge of northwest Georgia Pearce, Darren, Columbus State University, Department of Earth and Space Science, Spring 2010
EASTERN BLUE RIDGE ALKALI FELDSPAR GRANITE
This sample consists of approximately 25 - 30% subhedral to euhedral alkali feldspar, ranging from 0.25mm to 3mm in size. Subhedral to euhedral quartz grains, some with sub-grain boundaries and undulating extinction,
range in size from 0.15mm to 3.5mm and make up approximately 35 - 40/% of the sample. Muscovite grains are visible in approximately 10% concentration ranging in sizes from .10mm to 3mm. This granitoid also contains
biotite in approximately 10% concentration and ranging in size from .01mm to 3mm.
GRANITE
This metagranitoid body consists of approximately 60 to 75% quartz some showing undulating extinction indicative of strain, and some dynamic recrystallization and ranging in size from .25mm to 4mm. Subhedral to euhedral plagioclase and potassium feldspar grains range
in size from 0.1mm to 4mm in size and make up approximately 5% and 10% of the rock, respectively. Biotite is present in approximately 15 -20% proportion ranging in size from .01mm to 1mm..
MULBERRY ROCK GNEISS
A granodioritic gneiss of upper amphibolite facies consisting of 10% subhedral to euhedral
hornblende ranging in size from 1mm to 5mm. Subhedral to euhedral quartz grains make up approximately ~ 50% and range in size from .01 to 4mm. Approximately 20% potassium
feldspar in a subhedral to euhedral form are visible, possible perthite from exsolution lamellae of plagioclase is present. Additionally, approximately 15% biotite is seen ranging in size from
.01mm to 1mm and approximately 5% muscovite ranging in size from .01mm to 4mm.
Garnet
C-fabric
S-fabric
Plagioclase Quartz Biotite K - FeldsparQuartz Muscovite Biotite K-Feldspar
Biotite Muscovite Quartz Re-crystallized Quartz Quartz Potassium Feldspar Hornblende
Conclusions:
• The unnamed granitoid studied in this research is petrographically and lithologically distinct from the Mulberry Rock Gneiss showing both mineralogical and grain size differences. These differences indicate that it is not an intrusion of the Mulberry rock into the Lay Dam
as suggested by previous researchers and therefore has no bearing on the age of the Lay Dam Formation. Also, the Eastern Blue Ridge consists of a variety of igneous and high-grade metamorphic rocks including many granite bodies of different lithology. This research
indicates that this particular granitoid may be one such body.
•The presence of garnet in this unnamed granitoid, if metamorphic in origin, would suggest it is at a higher metamorphic grade, probably
amphibolite grade, than the adjacent Talladega belt. The Talladega belt is of lower greenschist facies falling below the garnet isograd supporting the idea that it is in faulted contact with the Lay Dam Formation and not an intrusion of the Mulberry Rock Gneiss.
• S-C fabrics in this unnamed granitoid indicate high shear strain and further supports the idea that this granitoid is in faulted contact with the adjacent Talladega belt and Lay Dam Formation possibly by the nearby Altoona fault.
Unidentified granitoid body
Mulberry Rock Gneiss
Abstract:
Previous research in the Talladega belt and Eastern Blue Ridge of northwest Georgia has revealed the presence of two distinct metamorphosed granitoid bodies: the Mulberry Rock Gneiss and a group of unnamed metagranitoids with a distinctly different petrologic character. On the Yorkville 7.5’ quadrangle, an outcrop on U.S. Highway 278 contains a metagranitoid body identified
by some researchers as being part of the Late Ordovician-Silurian Mulberry Rock Gneiss. Other researchers, however, have suggested that the rock belongs to the unnamed and undated metagranitoids of the Eastern Blue Ridge. My research suggests that this unnamed granitoid body may not be correlative with the Mulberry Rock Gneiss. First, shear fabrics along the margins of the granitoid suggest a fault may separate it from the adjacent rocks of the Talladega belt. Additionally, the presence of garnet in these rocks suggests that they may have been subjected to higher metamorphic conditions than the Mulberry Rock Gneiss. If the unnamed granitoid body is indeed in faulted contact with the surrounding rocks, with no distinct relationship to the Mulberry
Rock Gneiss, this suggests that it provides no constraints on the age of the adjacent Talladega belt rocks. Using petrography to study the rocks in thin section, hand sample identification, and point-count analysis, I hope to determine if this granitoid body can be correlated with the Mulberry Rock Gneiss petrology, or if it resembles the numerous unnamed granitoid bodies within the region.
Quartz Biotite K -Feldspar
Mulberry Rock Gneiss
from Barineau and Pearce, 2010
“ The Mulberry Rock Gneiss, exposed in an ‘eyelid window’ southwest of Cartersville, Ga., has traditional been interpreted as Grenville basement (McConnell and Abrams, 1984; Higgins et al, 1988; Osberg et al, 1989; Higgins
et al, 2003), and more recently as intruding the Lay Dam Formation (Crawford and Kath, 2008; Higgins and
Crawford, 2008). The 420 to 460Ma Mulberry rock (Das, 2006; Holm-Denoma, 2006; Mueller, personal communication) is a “medium grained, slightly metaluminous, two-mica granite with sub equal amounts of quartz,
plagioclase, and k-feldspar” with uncommon garnet ( Holm-Denoma, 2006) and lies at the boundary between the eastern and western Blue Ridge, in the footwall of the Altoona fault. Multiple workers ( Holm-Denoma, 2006;
Higgins et al, 2003, Crawford and Kath, 2008) have mapped the type section of the Mulberry as being completely fault-bounded in the vicinity of Yorkville, Ga. Crawford and Kath (2008) however, map a granitoid exposure on the
recently constructed Rockmart highway ( Hwy 278 ) on the Yorkville 7.5’ quadrangle as intruding the adjacent
interlayered schists and metawackes of the Lay Dam Formation - and interpretation echoed by Higgins and Crawford (2008). This interpretation is complicated by the following:
• There are no exposures of the Mulberry Rock on the Yorkville 7.5’ quadrangle which would allow definitive
analysis of a fault vs. intrusive relationship between it and the surrounding metasedimentary rocks of the
Talladega belt due to the scarcity of outcrop and deep weathering of exposed outcrops. To conclude that the relationship between the Mulberry Rock Gneiss and the adjacent Talladega belt would necessitate an exposure
which clearly eliminates the possibility of faulted contact.
• The granitoid mapped by Crawford and Kath (2008) as intruding the Lay Dam lies more than 2 miles west and
north of the Mulberry Rock exposures which yielded the Late Ordovician to Silurian ages (Holm-Denoma, 2006) and is found in a separate thrust panel than the dated Mulberry Rock Gneiss.
• The granitoid interpreted as Mulberry Rock by Crawford and Kath (2008) is petrographically distinct from the large exposure of Mulberry Rock to the east and south.
• The granitoid interpreted as Mulberry Rock by Crawford and Kath (2008) contains garnet, which may suggest it
is at a higher metamorphic grade than the adjacent lower greenschist facies rocks of the Talladega belt.
Additionally, the presence of shear fabrics on its western contact with the Lay Dam Formation suggest the possibility that the two are separated by a fault. Holm-Denoma (2006) mapped the Altoona fault in the vicinity of
the contact between the unnamed granitoid ( interpreted as Mulberry Rock Gneiss By Crawford and Kath, 2008), and it is possible that it separates the unnamed granitoid from the underlying Talladega belt metasedimentary
rocks. Further structural and petrologic study will be essential for establishing a more definitive interpretation of the nature of the contact between the Lay Dam and this unnamed granitoid body. “
Petrography
This research was funded in part by an Undergraduate Research Grant from the Office of the Provost, Columbus State University
Eastern Blue Ridge Alkali Feldspar
Granite
Unnamed Granitoid
Mulberry Rock Gneiss
Igneous Rock Classification Diagram, IUGS
References:
Barineau, C.I., and Pearce, D., 2010, Age of the Lay Dam Formation, Talladega Belt, Southernmost Appalachians: Stratigraphic and Structural Constraints; Northeastern
Section (45th Annual) and Southeastern Section (59th Annual) Joint Meeting: Abstracts with programs - Geological Society of America, v. 42, no. 1: p. 93.
Crawford, T.J., and Kath, R.L., 2009, Geologic Map Illustrating the Stratigraphy and Structural Geology of the Yorkville, Georgia, 7.5 Minute Quadrangle, Geological Society of America, Abstracts with Programs, vol.41, pp. 12
Holm-Denoma, C. S. (2006). Characterization of Paleozoic terranes and terrane accretion at the southeastern margin of Laurentia Georgia and Alabama Appalachians. Thesis (Ph. D.)--Florida State University, 2006. http://etd.lib.fsu.edu/theses/available/etd-11132006-173338.
Streckeisen, A. & Le Maitre, R. W., 1979. A chemical approximation to the modal QAPF classification of the igneous rocks. Neues Jahrbuch für Mineralogie, Abhandlungen136, 169–206
Stratigraphy
Talladega Group Intrusive Relationship
Jemison Chert/Erin Slate
Butting Ram/Cheaha Quartzite
Lay Dam Formation
Mulberry Rock Gneiss Intrusion
Talladega Group Faulted Relationship
Unnamed Granitoid
Possible Fault Contact