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The Origin of Species

16. The Origin of Species. 0. 16.1 What Is a Species?. Each species evolves independently Today, a species is defined as a group of populations that evolves independently

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The Origin of Species

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  1. 16 The Originof Species 0

  2. 16.1 What Is a Species? • Each species evolves independently • Today, a species is defined as a group of populations that evolves independently • Each species follows a separate evolutionary path because alleles rarely move between the gene pools of different species

  3. 16.1 What Is a Species? • Each species evolves independently (continued) • The biological species concept is based on the observation that reproductive isolation (inability to successfully breed outside the group) ensures evolutionary independence

  4. 16.2 How Is Reproductive Isolation Between Species Maintained? • Traits that prevent interbreeding and maintain reproductive isolation are called isolating mechanisms • The benefit of isolating mechanisms is the production of no offspring that are unfit or sterile • Isolating mechanisms prevent the wasting of reproductive effort and failing to contribute to future generations • Natural selection favors traits that prevent reproduction across species boundaries

  5. Table 16-1

  6. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms prevent mating between species

  7. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Members of different species may be prevented from meeting • Geographical isolation prevents interbreeding between populations that do not come into contact because they live in different, physically separated places

  8. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Members of different species may be prevented from meeting (continued) • This type of isolation is usually considered to be a mechanism that allows new species to form rather than one that maintains reproductive isolation between species • (Albert moved into Grand Canyon area and made the Kaibab)

  9. Figure 16-3 Geographic isolation Kaibab squirrel Abert squirrel

  10. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may occupy different habitats • Ecological isolation occurs when species do not mate because they occupy different habitats • White-crowned sparrows inhabit fields and meadows, while white-throated sparrows inhabit dense thickets

  11. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Ecological isolation occurs when species do not mate because they occupy different habitats (continued) • In another example, each species of fig wasp breeds in the fruit of a different species of fig, and the wasps thus do not come into contact with one another

  12. Figure 16-4 Ecological isolation

  13. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may breed at different times • Temporal isolation (time-based isolation) prevents breeding between two species occupying the same habitat because of different breeding seasons • The spring field cricket and the fall field cricket both occur in many areas of North America • They are unable to interbreed because of their varying breeding seasons

  14. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may breed at different times (continued) • In nature, Bishop pines and Monterey pines do not interbreed • Bishop pine pollination occurs in summer • Monterey pine pollination occurs in early spring

  15. Figure 16-5 Temporal isolation Bishop pine Monterey pine

  16. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may have different courtship signals • Among animals, elaborate courtship colors and behaviors can prevent mating between species • Behavioral isolation is created by signals and behaviors that differ from species to species

  17. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may have different courtship signals (continued) • The plumes and arresting pose of a courting male Raggiana bird of paradise are conspicuous indicators of this species • There is little chance females of another species will mate with him by mistake

  18. Figure 16-6 Behavioral isolation

  19. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Different species may have different courtship signals (continued) • Male frogs embrace any female regardless of species • Female frogs encountering males of a different species utter the “release call,” which causes the males to let go • As a result, few hybrids—offspring of parents of different species—are produced

  20. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Differing sexual organs may foil mating attempts • In animals with internal fertilization, male and female sexual organs may not fit together • Incompatible body shapes may make copulation between species impossible • For example, snails of species whose shells have left-handed spirals may be unable to copulate successfully with snails whose shells have right-handed spirals

  21. 16.2 How Is Reproductive Isolation Between Species Maintained? • Premating isolating mechanisms include the following (continued) • Differing sexual organs may foil mating attempts (continued) • In plants, differences in flower size or structure may attract different pollinators • Mechanical incompatibility occurs when species cannot mate because their reproductive structures are incompatible

  22. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • If the resulting offspring die during development, the two species remain reproductively isolated from each other • Mechanisms that prevent the formation of vigorous, fertile hybrids between species are called postmating isolating mechanisms

  23. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • One species’ sperm may fail to fertilize another species’ egg • Gametic incompatibility occurs when sperm from one species cannot fertilize eggs of another • In animals with internal fertilization, fluids of the female reproductive tract may weaken or kill sperm of another species

  24. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • One species’ sperm may fail to fertilize another species’ egg (continued) • Gametic incompatibility may be an especially important isolating mechanism in certain species • Marine invertebrates and wind-pollinated plants reproduce by scattering gametes in the water or in the air

  25. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • One species’ sperm may fail to fertilize another species’ egg (continued) • Among plants, chemical incompatibility may prevent the germination of pollen from one species that lands on the stigma (pollen-catching structure) of the flower of another species

  26. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • Hybrid offspring may fail to survive or reproduce • If cross-species fertilization occurs, the resulting hybrid may be unable to survive, a situation called hybrid inviability

  27. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • Hybrid offspring may fail to survive or reproduce (continued) • The genetic instructions directing development of the two species may be so different that hybrids abort early in development • The hybrid may abort early in development or die shortly after birth

  28. 16.2 How Is Reproductive Isolation Between Species Maintained? • Postmating isolating mechanisms limit hybrid offspring (continued) • Hybrid offspring may be infertile • Mule hybrids (a cross between a horse and a donkey) are sterile • Liger hybrids (a zoo-based cross between a male lion and a female tiger) are sterile • Hybrid infertility prevents hybrids from passing on their genetic material to offspring, thus blocking gene flow between the two parent populations

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