6GEO3 Unit 3 Contested Planet Topic 3: Biodiversity under Threat.
Topic 4.3 conservation of biodiversity
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Transcript of Topic 4.3 conservation of biodiversity
Topic 4 Conservation and Biodiversity
4.3 Conservation of Biodiversity
Arguments for Conservation of Biodiversity
• Nature has inherent value– e.g. aesthetic and cultural value
• Many natural products have economic value– e.g. Forests provide timber and oportunities for ecotourism
• Ecosystems provide free services to humans– e.g. Rainforests stabilise soil and the water cycle, sequester
carbon and produce oxygen• Ecosystems conserve biodiversity• Undisturbed habitats are still home to many
indiginous people
Arguments for Conservation of Biodiversity
• Obvious reasons:– Timber– Drugs– Food stocks
• Less obvious reasons:– Environmental indicators– Scientific knowledge– Education– Genetic diversity– Ecotourism– Aesthetic value– Human rights for indiginous
peoples– The ethical responsibility of
human stewardship
Conserving resources with financial value
Questions
1. In which countries are indiginous rainforest peoples still found?
2. What are threats to these people?3. In which ways do their views of the rainforest
and its value differ from ours’?4. What environmental services do rainforests
provide?5. What other reasons are there to conserve the
rainforest?
Conservation Organisations• Non-governmental Organisations (NGOs)
– Greenpeace– World Wide Fund for Nature (WWF)
• Intergovernmental Organisations (IGOs)– United Nations Environment Programme (UNEP)– United Nations Educational, Scientific and Cultural
Organization (UNESCO)– International Union for the Conservation of
Nature (IUCN)
• Governmental Organisations (GOs)– National Departments of the Environment
Not run, funded or influenced by national governments. Have no direct influence on national policy
Established by international agreements. Have some influence over national governments, but also influenced by national politics
Restricted by national politics, but important in bringing internatal conventions and laws into force
IGOs vs. NGOsIGOs NGOs
Media Professional liason officersSlick news clips and press releases
Advertise on popular TVCreate public events
Response Slow – rely on many countries reaching a consensus
Rapid and regularAble to make own decisions
Constraints Constrained by different legal requirements and diplomatic issues
Generally unaffected by politicsActivities may be illegal in certain situations
Political Influence
Big – have direct access to governments
No direct political influence but may alter perceptions of the voting public
Enforceability Directly influence international agreements and laws
Rely on public pressure and have no legal authority
International Conventions on Conservation of Biodiversity
• Convention on the International Trade of Endangered Species of Wild Flora and Fauna (CITES)– Published in 1973– Driven by IUCN
• World Conservation Strategy (WCS)– Published in 1980– A collaboration of IUCN, UNEP and WWF
• Convention on Biological Diversity (CBD)– Established in 1992 at the Rio Earth Summit– Agenda 21 was the discussion which centred on biodiversity
conservation and sustainable development
Criteria For Designing Protected Areas (in situ conservation)
• Large area better than small
• One large area better than several small ones
• Close is better than isolated
• Clumped better than spaced out to allow dispersion and recolonisation
• Corridors preferable to no corridors to allow migration
• Round is the best shape to reduce edge effects. Also makes the centre of the reserve less accessible to poachers
Criteria For Designing Protected Areas
• Area – In general, larger reserves are better than smaller
ones– Of course the size of reserves are affected by
national politics or boarders (although many national parks do cross boarders)
– The best indicator of the health of a population is its size
– Many large reserves with similar habitats and large populations help guard against extinction
Criteria For Designing Protected Areas
• Edge Effects– When we looked at islandisation
we saw that biodiversity increases towards the centre of an island (fragment)
– At the edges of a fragment there are more severe abiotic factors, such as wind, temperature variations, humidity etc.
– Edges are also more subject to colonisation by alien species from outside the fragment
Criteria For Designing Protected Areas
• Shape– Circular reserves have less circumference and
therefore fewer edge effects– However, reserves are limited by the available
land and are not generally designed
Criteria For Designing Protected Areas• Corridors
– Many species are unable to cross between fragments (e.g. Ant Bird)
– Advantages: Corridors allow movement of organisms to new habitats, gene flow, seasonal migration and help to prevent populations becoming too large in one area
– Disadvantages: Corridors may reduce populations too much in one area. They may allow the spread of disease or alien species. The may allow poachers to move more easily in the reserve. If they are too narrow, they may become subject to severe edge effects themselves. They may cross land which present new dangers to migrating animals
Criteria For Designing Protected Areas• Buffer Zones
– These are managed or undisturbed areas around a reserve that help to maintain disturbance from outside influences
– It is generally a bad idea to allow cities or agriculture to encroach right to the edge of a park, but in some places this does occur
Nairobi National Park, next to Nairobi City, Kenya
Criteria For Designing Protected Areas• Characteristics of a successful reserve:
– Partially or completely funded and run by government– Attract many visitors (although ecotourism must be carfully
controlled to avoid negative impacts)– All have management programmes (although human exclusion
zones have been seen to work effectively)– All have high profile and popular animal species (eg. Orangutans
, Bengal Tigers, Giant Pandas)
Evaluating the Success of a Protected Area (Case Study)
• You should consider:– Which species is the area designed to protect?– Why is/are the species threatened? – How and why has the protected area been
successful?– What are the weaknesses (and their causes) of the
protected area?– How have the criteria used to design protected
areas influenced the success of each one?
The Species-Based Approach to Conservation (The Role of Zoos)
• Selecting species to conserve:– Better to conserve endangered species rather than
those that are not – Different zoos have different areas of expertise– Can the zoo afford to support conservation projects?– Where is the zoo located and is this important in
selecting which species it can help to conserve?– There should be dialogue between zoos to ensure
they provide help to as many endangered species as possible
The Species-Based Approach to Conservation (The Role of Zoos)
• In situ vs ex situ conservation:– Smaller species are easier to keep in zoos (ex situ)– Zoos should concentrate on species threatened due to
anthropogenic factors rather than natural factors– Species facing habitat loss often have to be kept ex situ– The choice is often heavily influenced by local politics– Species facing disease should be kept ex situ where possible to
ensure continuation of the population– The choice of species to be kept ex situ in zoos is often influenced by
the attractiveness of species to the general public (zoos are businesses after all). Money raised by exhibiting attractive non-threatened species can be used to protect unattractive threatened species
– Ex situ conservation should have the objectives of helping to conserve the same species in situ
The Species-Based Approach to Conservation (The Role of Zoos)
• Managing animals in zoos (‘The 5 Freedoms’):1. Freedom from thirst, hunger and malnutrition2. Freedom from discomfort 3. Freedom from pain, injury and disease4. Freedom to express normal behaviour (suitable
space, facilities and company)5. Freedom from fear, distress and boredom
The Species-Based Approach to Conservation (The Role of Zoos)
• Managing breeding programmes in zoos:– Can choices of mates be allowed?– Expansion of the gene pool should be a consideration in
choosing mates (genetic compatibility)– Artificial insemination is a possibility and gets around
the problems of shipping animals – Birth control may have to be considered to prevent
populations getting too big for the zoo to sustain– Females sometimes reject young, therefore keepers
may have to take offspring from their mothers– Good design of enclosures encourages animals to mate
The Species-Based Approach to Conservation (The Role of Zoos)
• Advantages– Education of the public– Increased scientific knowledge– Controlled environment
allows us to protect animals– Makes genetic monitoring
easier– Captive breeding has high
reproductive success– Higher chance of offspring
surviving to adulthood– Species can be held while
ways to conserve their habitat are explored
• Disadvantages– Animals in zoos always originate
from individuals forcibly taken from their habitat
– Captive populations have a small gene pool
– Captive animals (and their offspring) may never be able to be reintroduced to the wild
– There in an ethical argument against keeping animals in captivity for profit
– Not all zoos take notice of the 5 freedoms, and sometimes become no better than circuses