1. BIODIVERSITY Patterns, Practicality & Preservation

2. LEVELS OF DIVERSITY ECOSYSTEM

3. LEVELS OF DIVERSITY SPECIES

4. LEVELS OF DIVERSITY GENETIC

5. How many species are there on Earth? Formally described (means written up in a scientific publication, identified as new and placed in a taxonomic category): –1,750,000 (roughly) Many groups well known –Which ones? Why? Others much more poorly known –Fungi, arthropods, nematodes, etc Estimates for the real number?

7. How estimate?? Explore new areas and collect organisms –What fraction of the collected organisms are new? If low, eg, 2 of 100 insect specimens are new to science, then estimate that most of the insects in that area are already known. If high, eg 44 of 100 insect specimens are new to science, then estimate that many new species are waiting to be discovered and estimate of total insect species in the area must be high

8. Arachnophobia

10. Hotspots:  area with large number of endemic species  area has lost >70% of its habitat 70 percent of the world's species are in 12 countries: Australia, Brazil, China, Columbia, Ecuador, India, Indonesia, Madagascar, Mexico, Peru, and Zaire. Oops….Costa Rica

11. Biodivrsity patterns: hotspots

12. What exactly is a species? A species is all individuals that can interbreed freely in nature and produce fertile offspring.

13. Richness vs. evenness Species richness: the overall number of species in a defined area Species evenness: Uniformity of abundance. Also called ``equitability’’ –Greatest when all species present are equally abundant

14. Richness vs. evenness 2 habitats with 100 organisms A: 10 species, 10 individuals of each species B: 10 species, 91 individuals of one species and one each of the other nine. A and B are EQUALLY RICH A exhibits GREATER EVENNESS than B

15. Measuring biodiversity D =Sum (n / N) 2 n= number of individuals of a particular species N= number of indivduals of all species Simpsons index of diversity = 1-D (D measures the probability that two individuals selected from a sample belong to the same species)

16. Peru: 1,804 spp birds US, Canada, Europe: ~1,900 spp birds Where are the species?

17. One hectare of Amazon rain forest (about the size of a standard football field): –More tree species than are found in all of Europe Amazon: > 750 spp in a single hectare North America: about 1,000 species Europe: < 800 spp.

18. Benefits of biodiversity?

19. Why are species endangered?

20. 1: habitat loss » Rangeland in the Amazon, still smoldering after being cut and burned

21. tat Habitat fragmentation as suburbs encroach on farmland

23. Habitat loss As habitat is lost, edge come to predominate over interior. edge interior

24. KEY POINT Fragmentation – The breaking up of a once- contiguous landscape (wild habitat) into “islands” of habitat surrounded by human development.

25. Amazon rainforest One main road into the forest leads to many illegal roads and settlements. Result is fragmentation of the forest.

26. Prairie potholes

28. Prairie pothole, southern Alberta summer, 2011

29. Why are species endangered? 2: Invasives

30. What do invasives do? Change habitat –Fungus that causes Chestnut blight –Zebra mussel filters huge amounts of water, reducing plankton abundance Prey on –Brown tree snake on Guam has nearly wiped out the island’s birds

31. Why are species endangered? 3: Pollution DDT Threat to raptors DDT was banned in US

32. Why are species endangered? 4: Hunting/poaching/harvesting Often affects species already threatened by habitat loss or other factor Elephants – poaching Rhinos – poaching

33. Why are species endangered? 5: Climate change Polar bears: the sea ice they depend on is melting sooner and more extensively each summer Sea Turtles: nests on some beaches are threatened by rising sea levels (the turtles may not find suitable nest sites as the sea moves inland).

34. Protecting biodiversity: Laws Endangered Species Act CITES – Convention on Trade in Endangered Species of Fauna and Flora

35. Endangered Species Act Signed into law by Nixon, 12/28/73 Key agencies: US Fish and Wildlife Service (USFWS) and National Marine Fisheries Service (NMFS) Requires federal agencies, in consultation with USFWS and NMFS, ``to ensure that actions they authorize, fund, or carry out are not likely to jeopardize the continued existence of any listed species or result in the destruction or adverse modification of designated critical habitat of such species.’’ TRANSLATION: the agencies have to make sure that listed species (threatened or endangered) are not threatened with extinction.

36. Listing USFWS or NMFS can list Citizens can petition for a species to be listed.

37. Critical habitat All listings under the ESA must include critical habitat. Habitat that is deemed essential to the continued existence of the species and is therefore protected.

38. Private land Much critical habitat is privately owned What to do? Incentives for private landowners to preserve habitat, by allowing them to continue to get economic benefit from their land or not be penalized if endangered species shows up. E.g. Pine woods of NC and SC –Maintain fire –Allow trees to grow

39. Takings The law also prohibits any action that causes a "taking" of any listed species of endangered fish or wildlife.

40. CITES International agreement Went into force in 1975 Goal: ensure that trade in endangered species or their parts doesn’t threaten their survival.

41. CITES Roughly 5,000 species of animals 28,000 species of plants Appendix I: species that may become extinct and are threatened by trade –Gorillas, chimpanzee, tiger, elephant II: many more species, not immediately threatened, but could become so if trade not restricted. –Great white shark, African gray parrot III: requested to be listed by individual countries

42. Extinction Two kinds: 1.Background: the regular, consistent, extinction of species over millions and hundreds of millions of years - Result of environmental change, species interactions 2.Mass: the relatively sudden extinction of a great number of species in a short period of time (few million years, or less)

43. This graph shows extinction rates. You can see that five times in the last 600 million years, the rate has spiked up. Those are MASS EXTINCTIONS. The last one is when the dinosaurs died. Between mass extinctions, there is a more steady extinction rate, called BACKGROUND EXTINCTION.

44. Date of extinction mya=million years ago % species lostSpecies affected 65 mya Cretaceous 85 Dinosaurs, plants (except ferns and seed bearing plants), marine vertebrates and invertebrates. Most mammals, birds, turtles, crocodiles, lizards, snakes, and amphibians were unaffected. 213 Triassic44 Marine vertebrates and invertebrates.248 248 Permian75-95 Marine vertebrates and invertebrates.380 380 Devonian70 Marine invertebrates 450-440 Ordovician 50 Marine invertebrates

45. 6 th mass extinction? We are in the midst of a 6 th mass extinction. First one caused by human activity.

46. Evidence for 6 th mass extinction Birds: very well studied group, with a good fossil record Background extinction rate  1 species per 100 years 128 extinctions in last 500 years 103 extinctions in last 200 years 1,186 of about 9700 bird species are threatened