1 / 79

Lecture #3 – Origin of Species

Lecture #3 – Origin of Species. Key Concepts:. Species concepts Development of reproductive isolation Patterns of speciation Macroevolution Human evolution Evolution continues…. specie. My pet peeve is…. “Species” is both singular and plural. Major Species Concepts. Biological

reece-bruce
Télécharger la présentation

Lecture #3 – Origin of Species

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Lecture #3 – Origin of Species

  2. Key Concepts: • Species concepts • Development of reproductive isolation • Patterns of speciation • Macroevolution • Human evolution • Evolution continues…..

  3. specie My pet peeve is…. “Species” is both singular and plural

  4. Major Species Concepts • Biological • Morphological • Phylogenetic Diagram – variation in beaks between species

  5. Biological species – the basic standard for separating species(Ernst Mayr, 1942) • Species are defined by natural reproductive isolation • Individuals that can produce successful offspring are considered the same species Image – Sarracenia rubra Image – Sarracenia flava ≠

  6. Critical Thinking • Biological species are defined by natural reproductive isolation • Individuals that can produce successful offspring are considered the same species • Definition doesn't always work – why not???

  7. Critical Thinking • Biological species are defined by natural reproductive isolation • Individuals that can produce successful offspring are considered the same species • Definition doesn't always work

  8. Morphological species – the first way to separate species(Linnaeus, ~1750 & others) • Species are defined by differences in form • Individuals with the same morphology and/or anatomy are considered the same species Image – Hymenocallis coronaria Image – Hymenocallis floridana ≠

  9. Critical Thinking • Morphological species are defined by differences in form • Individuals with the same morphology and/or anatomy are considered the same species • Definition doesn't always work – why not???

  10. Critical Thinking • Morphological species are defined by differences in form • Individuals with the same morphology and/or anatomy are considered the same species • Definition doesn't always work

  11. Phylogenetic species – the new standard for separating species??? • Species are defined based on evolutionary history • Species defined by the smallest monophyletic group in an evolutionary tree • Monophyletic = lineage is derived from a common ancestor • Definition doesn't always work • Don’t have good phylogenies for all species or groups • Also, imperfect agreement on interpretations

  12. Development And Maintenance Of Reproductive Isolation • What constitutes a barrier to reproduction? • How do reproductive barriers develop? It is generally accepted that natural reproductive isolation defines and preserves separate species in sexually reproducing organisms

  13. Pre-zygotic Barriers • Remember, the zygote is the fertilized egg cell • The first cell of the new offspring • Pre-zygotic barriers prevent the formation of the zygote • Natural, evolved incompatibilities prevent successful fertilization • Habitat isolation • Behavioral isolation • Temporal isolation • Structural isolation • Chemical isolation Image – blue-footed boobies mating behavior

  14. Critical Thinking • Natural, evolved incompatibilities prevent successful fertilization • Think of some examples of: • Habitat isolation • Behavioral isolation • Temporal isolation • Structural isolation • Chemical isolation

  15. Critical Thinking • Habitat isolation – • Behavioral isolation – • Temporal isolation – • Structural isolation – • Chemical isolation –

  16. Post-zygotic Barriers • Post-zygotic barriers prevent successful development of offspring • Hybrids don’t develop properly • Hybrids don’t reach sexual maturity • Hybrids don’t produce viable gametes • Hybrid lineages fail over time • Natural genetic incompatibilities prevent successful long-term reproduction Horse x Donkey = robust but sterile Mule

  17. Critical Thinking The Darwinian fitness of an individual is measured by • its ability to reproduce. • how long it lives. • the number of mates it attracts. • the number of its offspring that survive to reproduce. • its physical strength.

  18. Critical Thinking The Darwinian fitness of an individual is measured by • its ability to reproduce. • how long it lives. • the number of mates it attracts. • the number of its offspring that survive to reproduce. • its physical strength.

  19. Patterns of SpeciationBarriers result from separations that persist long enough that eventually new species have developed Diagram – different species of fish in separated ponds

  20. Patterns of Speciation • Pattern depends on the mechanism of gene flow interruption • Allopatric speciation occurs when populations are separated by a geographical barrier • Sympatric speciation occurs in the absence of a geographic barrier

  21. Critical Thinking • Allopatric speciation occurs when populations are separated by a geographical barrier • Such as???? • How could such barriers form???

  22. Critical Thinking • Allopatric speciation occurs when populations are separated by a geographical barrier • How could such barriers form???

  23. Critical Thinking • Allopatric speciation occurs when populations are separated by a geographical barrier • How could such barriers form???

  24. Critical Thinking

  25. Allopatric Speciation • Once populations are physically isolated, speciation may occur due to all the evolutionary processes we talked about earlier • Selection • Drift • Selective mating • Mutation

  26. Critical Thinking • What if the isolated population is small??? • What if the isolated population is from edge of the range of the original population???

  27. Critical Thinking • What if the isolated population is small??? • What if the isolated population is from edge of the range of the original population???

  28. Critical Thinking • What if the isolated population is small??? • What if the isolated population is from edge of the range of the original population???

  29. Allopatric Speciation due to geographic separation Plants???? Birds??? Images – different species of chipmunk on either side of the Grand Canyon

  30. Speciation may, or may not, occur… Diagram – sympatric  allopatric  either sympatric again or not.

  31. Sympatric Speciation • Occurs when a population becomes reproductively isolated without geographic barriers • Mutations or selection pressures that lead to changes in behavior, habitat, food source, phenology…. • Errors in meiosis that lead to polyploidy (some plants can be self-fertile, vegetative reproduction) • Hybrids that develop into fertile populations through vegetative reproduction (mostly plants) Diagram – sympatric speciation in a forest environment

  32. Sympatric Speciation • Occurs when a population becomes reproductively isolated without geographic barriers • Mutations or selection pressures that lead to changes in behavior, habitat, food source, phenology…. • Errors in meiosis that lead to polyploidy (mostly plants) • Hybrids that develop into fertile populations through vegetative reproduction (mostly plants) Diagram – meiosis errors

  33. Polyploidy – one mechanism for sympatric speciation Diagram – errors in meiosis can lead to polyploids Some plants can be self-fertile, or vegetative reproduction can produce multiple fertile individuals

  34. Sympatric Speciation • Occurs when a population becomes reproductively isolated without geographic barriers • Mutations or selection pressures that lead to changes in behavior, habitat, food source, phenology…. • Errors in meiosis that lead to polyploidy (some plants can be self-fertile, vegetative reproduction) • Hybrids that develop into fertile populations through vegetative reproduction (mostly plants)

  35. Speciation is NOT a Given • Must have an interruption to gene flow PLUS • Must have enough change in the separated populations to provide a barrier to reproduction

  36. Endemic Species and Adaptive Radiation • Endemic species = restricted in distribution to a particular place, generally because they evolved in place • Volcanic island chains often contain many endemic species • No biota until they were colonized by a few individuals (founder effect) • These small populations then evolved into new species • Allopatric speciation due to the geographic barrier from the founder effect • But also……

  37. Endemic Species and Adaptive Radiation • Many new species develop that are adapted to the diverse new habitats found in such islands • Sympatric speciation • No geographic barriers • Adaptive radiation into new habitats

  38. Adaptive Radiation Galapagos finches and Hawaiian honeycreepers Diagrams – adaptive radiation in birds

  39. Adaptive Radiation is a common theme – both between and within lineages Diagram – mass extinctions over the past 2.5 billion years Diagram – diversification of mammals after extinction of the dinosaurs Mass Extinction Events Mammals

  40. Critical Thinking • Humans have initiated a mass extinction event • Will life cease to exist on the planet??? • Can we destroy the planet???

  41. Critical Thinking • Humans have initiated a mass extinction event • Will life cease to exist on the planet??? • Can we destroy the planet???

  42. Critical Thinking • Humans have initiated a mass extinction event • Will life cease to exist on the planet??? • Can we destroy the planet???

  43. Speciation is a Constant • When migration, isolation or other selection pressures force divergence, reproductive isolation can eventually lead to speciation • Speciation might be gradual or abrupt (punctuated equilibrium) • Transitions (either gradual or abrupt) may or may not be captured in the fossil record

  44. Macroevolution: larger-scale changes in organismsAlso contributes to speciation • Small, population-scale changes can accumulate • Exaptations – traits can be co-opted • Feathers for thermoregulation  feathers for flight • Large phenotypic changes can result from small changes in regulatory genes • Control over the timing and length of developmental events, or the spatial organization of body parts

  45. Critical Thinking Was the evolution of the modern horse a series of directed events ???? Diagram – phylogeny of the modern horse

  46. Critical Thinking Was the evolution of the modern horse a series of directed events???

  47. Selection is a series of gates!!!

  48. A Preview of the Taxonomic Hierarchy:this is how we classify diversity

  49. Images – the yellow fringed orchid Platanthera ciliaris

  50. Humans can also be classified! • Domain – eukarya • Kingdom – animal • Phylum – chordates • Sub-phylum – vertebrates • Class – mammals • Order – primates • Family – hominoids • Genus – Homo • Specific epithet – sapiens

More Related