1. Species and Their Formation Patterns of Speciation

2. Biological Species What are biological species? –fundamental units of classification

3. Biological Species Species definitions –several exist Morphological species –species are discrete morphological units »members and non-members are distinguishable but

4. Biological Species Morphological species –some problems exist some reproductively distinct species are not easily distinguishable and some morphospecies freely interbreed therefore animal species are generally defined by their reproductive patterns

5. Biological Species The Biological Species Concept –Ernst Mayr (1940) “Species are groups of actually or potentially interbreeding natural populations which are reproductively isolated from other such groups.”

6. Biological Species “Species are groups of actually or potentially interbreeding natural populations which are reproductively isolated from other such groups.” groups: collections of local populations actually or potentially: are or could be if in close proximity natural: not in captivity or under coercion reproductively isolated: prevented from genetic exchange

7. Biological Species A “Biological Species” is a group of individuals that shares a gene pool.

8. Biological Species The BSC fits some organisms better than others. –most plant species are morphologically distinguishable –many plants freely interbreed with clearly distinct morphospecies –many plants reproduce asexually, almost exclusively

9. Species Formation Evolutionary change occurs according to one of two patterns 1. anagenesis change over time in a single lineage may produce a new species

10. Species Formation Evolutionary change occurs according to one of two patterns 2. cladogenesis interruption of gene flow between two segments of a population –the two groups evolve independently –the two gene pools cannot exchange information

11. Species Formation - Cladogenesis Figure 24.3

12. Species Formation Evolutionary change occurs according to one of two patterns –cladogenesis changes that occur may prevent interbreeding when (if) the two groups are reintroduced

13. Species Formation Three modes of cladogenesis 1. allopatric speciation (a.k.a. geographic speciation) speciation due to physical barriers –land barrier to aquatic species –water barrier to land species –habitat barrier to fastidious species –distance barrier to mobile species

14. water may be a barrier to land organsims Figure 24.4

15. distance may be a barrier to mobile organisms Figure 24.5

16. distance may be a barrier to mobile organisms Figure 24.6

17. Species Formation Three modes of cladogenesis 1. allopatric speciation a population may be divided divided groups may experience different evolutionary agents once reintroduced, they may be reproductively incompatible if gene flow does not resume, they are distinct species

18. Species Formation Three modes of cladogenesis 2. sympatric speciation occurs without physical separation most often through polyploidy –autopolyploidy »formation of diploid gametes »self or infraspecies fertilization »tetraploid offspring new population can’t interbreed effectively with diploid parent population

19. Figure 24.7

20. Species Formation Three modes of cladogenesis 2. sympatric speciation occurs without physical separation most often through polyploidy –allopolyploidy »formation of a diploid hybrid »asexual reproduction »formation of diploid gametes »self or infraspecific fertilization

21. Allopolyploidy diploid & tetraploid populatiion Distributions Figure 24.8

22. Species Formation polyploidy is common among plants –~70% of flowering plants, 95% ferns are polyploid –polyploid species can spread rapidly –polyploid species can be more successful than their diploid parents

23. Species Formation sympatric speciation among animals is less common, but not unknown –more common is strict habitat selection and mating behavior sympatric picture-winged fruit flies reproduce on different fruits

24. Hyla versicolor a tetraploid frog

25. Species Formation Three modes of cladogenesis 3. parapatric speciation occurs between two adjacent populations without a physical barrier –e.g. plant populations differing in tolerance to heavy metal toxicity

26. Reproductive Isolation conditions or mechanisms that prevent gene flow between two populations geographically separated populations may still be “potentially interbreeding”

27. Figure 24.9

28. Reproductive Isolation conditions or mechanisms that prevent gene flow between two populations geographically separated populations may still be “potentially interbreeding” reintroduced populations may be unable to reproduce for many different reasons –reproductive isolating mechanisms may operate before fertilization (prezygotic) or after fertilization (postzygotic)

29. Prezygotic Reproductive Isolation Spatial: two new species have come to prefer different habitats Temporal: two species have adopted reproductive periods that do not overlap Mechanical: sizes/shapes of reproductive organs have become incompatible Gametic: gametes cannot fuse because of chemical incompatibility Behavioral: the other is not seen as a mate

30. spatial isolation reinforced by behavioral differences Figure 24.10

31. third-party behavioral isolation Figure 24.11

32. Postzygotic Reproductive Isolation Hybrid zygote abnormality: developing embryos die or produce abnormal adults Hybrid infertility: normal adult hybrids are sterile Low hybrid viability: low survival rates of hybrids

33. Incomplete Reproductive Isolation separated populations may be reintroduced before complete isolation has occurred –hybrids may be vigorous; the populations may merge –hybrids may be weak; isolation may continue to strengthen

34. Figure 24.13

35. Reproductive Isolation reproductive isolation does not require extensive differentiation

36. speciation without extensive genetic variation Figure 24.14

37. Speciation Rates Factors affecting speciation rates 1. species richness the more species are part of a lineage –more opportunity for polyploidy –more opportunity to be separated by a barrier

38. Speciation Rates Factors affecting speciation rates 2. species range the larger the range of a species –more likely to be fragmented by a barrier –more likely that isolated subpopulations will experience different conditions

39. Speciation Rates Factors affecting speciation rates 3. Dispersal rates species that do not disperse well will be separated by relatively small barriers

40. Speciation Rates Factors affecting speciation rates 4. sexual selection species that discriminate among potential mates - engage in non-random mating

41. Speciation Rates Factors affecting speciation rates 5. environmental change environmental change may increase or decrease available habitat

42. Speciation Rates Factors affecting speciation rates 6. ecological specialization discontinuous populations more easily become isolated

43. Speciation Rates Factors affecting speciation rates 7. generation times short generation times: more generations per unit time more generations: more rapid response to evolutionary agents

44. Evolutionary Radiations evolutionary radiations: rapid speciation with low extinction –following mass extinctions –following colonization of a new habitat low competition rates low predation abundant resources

45. Evolutionary Radiations common on the Hawaiian Islands –descendants of U.S. west coast tarweeds silverswords occupy all major habitats and exhibit growth forms not represented in the ancestral populations

46. HawaiianHawaiian radiationradiation Figure 24.16

47. Species and Their Formation we know the results of macroevolution from the study of fossils and relics –the mechanisms of macroevolution are inferred to be those of speciation extrapolated over many millions of years

48. Species and Their Formation Likewise - –multiple factors influence microevolution assortative mating, small population size, migration, high mutation rate, directional natural selection, sexual selection –macroevolution may depend on additional processes that are invisible to short term studies or processes that are rare or one-time events.