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Sustaining Biodiversity ‐ species Background extinction rates – estimate 1 species / million species / year (0.0001%/year) Current estimates – 100X background rates, primarily due to human activities (0.001%/ year) Still seems pretty small…and there’s the planet’s whole mass extinction history… so, why worry? Current habitat destruction, hunting, etc. estimated to increase extinction rate to 0.1 to 1% /year by end of century. Levels of extinction Photo: USFWS Local: Mexican grey wolf in American Southwest Reintroduced to N.M., Arizona by USFW Service – (grey wolf in Yellowstone another example) Ecological: Sea otters Reduced numbers in Aleutean Islands lead to increase in sea urchins; kelp forests devastated (photo: www.turtletrack.org) At 1% extinction rate, ¼ to ½ of current species could vanish by end of century; RATE is faster than EVER estimated, even during previous mass extinctions. Humans not present during previous mass extinctions… Mass extinction events Biological: Golden toad, adapted to cloud forests Associated with climate change (no more “cloud” in the forest!) www.amersol.edu.pe Endangered species: how different from threatened species? Grizzly bear Utah prairie dog Kirkland’s warbler Knowlton cactus Swallowtail butterfly Humpback chub Florida manatee African elephant Golden lion Siberian tiger tamarin Fig. 5‐2a, p. 95 1 IUCN, International Union for Conservation of Nature monitors threatened, endangered and extinction of species globally IUCN REDLIST: http://www.iucnredlist.org/ Characteristic Low reproductive rate Specialized niche Giant panda Black‐footed ferret Whooping crane Northern spotted owl Blue whale Elephant seal, desert pupfish Feeds at high trophic level Bengal tiger, bald eagle, grizzly bear Fixed migratory patterns Commercially valuable Florida panther California condor Hawksbill sea turtle Black rhinoceros Blue whale, giant panda, Everglades kite Narrow distribution Rare Mountain gorilla Examples Blue whale, giant panda, rhinoceros Blue whale, whooping crane, sea turtle African violet, some orchids Snow leopard, tiger, elephant, rhinoceros, rare plants and birds Large territories Fig. 5‐2b, p. 95 California condor, grizzly bear, Florida panther Fig. 5‐3, p. 96 What is the value of a species? Red list also monitors extinctions: 9 Biological extinction 9 Local / subspecies extinctions http://usatoday30.usatoday.com/news/world/environment/story/2011‐11‐10/africa‐rhino‐extinct/51149676/1 Fig. 5‐6b, p. 100 Ecological value: Lions as top predators Economic value: How much is one lion worth in ecotourism dollars over its lifetime, vs. its value for its pelt? Ecological value ‐ diversity Economic value ‐ are wild fisheries affected? 2 Plants as medicines Pacific yew taxol Success! • Prowolski Horses – Native to Mongolia’s Gobi Desert • Extinct in wild – reintroduced from zoo populations Opium poppy morphine Eucalyptus menthol Ephedra nasal decongestant animal.discovery.com Jairo S. Feris Delgado Southern Resident Orca population Listed Endangered Underlying causes • Population growth • Rising resource use • Undervaluing natural capital http://www.psp.wa.gov/vitalsigns/orcas.php Made up of J, K and L pods (family groups) http://www.care2.com/news/member/285806679/614303 http://whaleresearch.com/ J pod = 25 individuals K pod = 20 individuals L pod = 40 individuals • Poverty Direct causes • Habitat loss • Habitat loss • Pollution • Commercial hunting and poaching • Habitat degradation and fragmentation • Habitat degradation and fragmentation • Climate change • Sale of exotic pets and decorative plants • Introduction of nonnative species • Overfishing • Predator and pest control • Introduction of nonnative species http://westseattleblog.com/2011/10/video‐what‐the‐orcas‐did‐on‐the‐other‐side‐of‐puget‐sound Fig. 5‐5, p. 99 3 Some deliberate introductions are not so good… HIPPCO • • • • • • European wild boar (Southeast U.S.) HABITAT destruction/degradation INVASIVE species POPULATION growth POLLUTION CLIMATE CHANGE OVEREXPLOITATION Invasive water hyacinth Many insect, plant, and aquatic invaders are accidental introductions How do they get here? Most deliberate introductions are useful for humans Accidental introductions Argentina fire ant Crops for food http://cisr.ucr.edu/ Many insect, plant, and aquatic invaders are accidental introductions BJORN SVENSSON How can these lead to species extinctions? Reduce genetic biodiversity? ROGER STANDEN How do they get here? 4 Climate change can lead to habitat loss Fig. 5‐10, p. 103 DDT in fish‐eating birds (ospreys) 25 ppm Biomagnification DDT in large fish (needle fish) 2 ppm DDT in small fish (minnows) 0.5 ppm DDT in zooplankton 0.04 ppm DDT in water 0.000003 ppm, or 3 ppt Fig. 5‐11, p. 103 5
