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Evolution: Selection and Speciation

Evolution: Selection and Speciation. Vanessa Couldridge Richard Knight . http://en.wikipedia.org/wiki/Image:Darwin%27s_finches.jpeg. Forms of Selection. Frequency. Trait value. Different selective pressures will cause a population to respond in different ways

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Evolution: Selection and Speciation

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  1. Evolution: Selection and Speciation Vanessa Couldridge Richard Knight http://en.wikipedia.org/wiki/Image:Darwin%27s_finches.jpeg

  2. Forms of Selection Frequency Trait value • Different selective pressures will cause a population to respond in different ways • The values of the trait under selection will change according to the selective pressure • There are three different forms of selection: • Stabilizing selection • Directional selection • Disruptive selection

  3. Stabilizing Selection Frequency Trait value • Mean values of the trait are favoured • It is the most common form of selection • Example: In seabirds, individuals with an average body size are less likely to die in a storm than those with large or small body sizes

  4. Directional Selection Frequency Trait value • One extreme of a trait is favoured over the other extreme • Leads to a shift in the mean trait value • Example: The long neck of the giraffe evolved as giraffes with longer necks were better able to find food

  5. Disruptive Selection Frequency Trait value • Both extremes of a trait are favoured • Leads to a splitting of the population over time • Can produce polymorphic forms • Example: The African finch Pyrenestes ostrinus has a bimodal distribution of bill size

  6. Speciation Speciation event • Speciation is the process whereby a new species arises from an ancestral species • It requires reproductive isolation • There are three major types of speciation, depending on the degree of geographical separation: • Allopatric speciation • Parapatric speciation • Sympatric speciation

  7. Allopatric Speciation • A new species is formed in complete geographic isolation from the ancestral species • Some extrinsic barrier splits a species into two populations and prevents the two groups from mixing and interbreeding with each other • The populations continue to evolve and diverge from one another in isolation • Eventually they diverge to such an extent that if they were to re-encounter one another, they would no longer be able to interbreed Original population Physical barrier New species

  8. Allopatric Speciation: Example • Formation of the Grand Canyon caused an ancestral population of squirrels to split into two groups that could no longer interbreed Kaibab Squirrel Abert Squirrel

  9. Parapatric Speciation • Speciation with incomplete geographic isolation • Individuals are more likely to mate with their nearest neighbours than with individuals at the opposite end of the geographic range of the population • Often results in a cline – gradual change in adjacent populations over the species’ range • Varying selective pressures over the geographic range can lead to speciation Original population New niche entered New species

  10. Parapatric Speciation: Example • Pollution from mines has led to contamination of the soil in part of the range of a species of grass • Plants growing on contaminated soil have evolved a tolerance for heavy metals and also flower at a different time to plants growing on uncontaminated soil http://en.wikipedia.org/wiki/Image:AnthoxanthumOdoratum.jpg

  11. Ring species • Occur when the geographical distribution of a species is circular in shape with clinal variation • Each population is slightly different to its neighbouring populations, but can still interbreed with them • When the “ring” closes, the two populations at each end of the distribution are sufficiently different that they cannot interbreed

  12. Ring species: Example http://en.wikipedia.org/wiki/Image:Rings_species_example.png http://en.wikipedia.org/wiki/Image:PT05_ubt.jpeg • Larus gulls have a circular distribution around North Pole • Adjacent populations can interbreed, except for the herring gull and the lesser black-backed gull

  13. Sympatric Speciation • Speciation in the complete absence of any geographical barriers to gene flow • A new species arises from within the same geographical area of the ancestral species • May occur if there are two or more morphs in the population and assortative mating leads to reproductive isolation between the morphs, eventually resulting in speciation Original population Genetic polymorphism New species

  14. Sympatric Speciation: Example • Apple maggot flies in the same geographic area feed and mate on either hawthorn (native host) or apple (introduced host) • Males and females mate, and females lay their eggs, on the host they grew up on • The two races do not interbreed http://www.msu.edu/course/lbs/144/f04/graphics/2_flies.jpg

  15. Adaptive Radiation Warbler finch Cactus finch Warbler finch Woodpecker finch Sharp beaked ground finch Probing bill Cactus eater Seed eater Small tree finch Small ground finch Ground finches Crushing bill Insect eater Tree finches Grasping bill Fruit eater Medium ground finch Large tree tree Parrot-like bill Large Ground finch Vegetarian tree finch • Rapid evolution of many new species from a single ancestor • Occupy different niches • Example: Darwin’s finches of the Galapagos Islands

  16. Hybridization (Polyploidy) • Hybridization can lead to instant speciation • Polyploid hybrids are unable to mate with diploid parental types • Example: Tetraploid hybrids of two species of gila monster are reproductively isolated from the parent species http://inst.sfcc.edu/~zoo/images/Gila%20Monster.jpg

  17. Phyletic gradualism Time Character • Evolution is a gradual process • Species continue to adapt at a uniform rate throughout time • There is no clear demarcation of the point where one species becomes another species http://www.don-lindsay-archive.org/creation/snails_big.gif

  18. Punctuated Equilibrium Time Character • Long periods of stasis interrupted by rapid bursts of change tied to speciation events • Most adaptation occurs immediately after speciation • Example: A study of fossil Pliocene snails at Lake Turkana showed that species showed no change for long periods followed by bursts of rapid change associated with fluctuating lake levels

  19. Isolating Mechanisms • Prevent different species from interbreeding • Prezygotic or premating isolating mechanisms: • Ecological isolation • Temporal isolation • Physiological isolation • Mechanical isolation • Behavioural isolation (e.g. male calls attract females of the same species in frogs) http://en.wikipedia.org/wiki/Image:Litoria_chloris_calling.jpg

  20. Isolating Mechanisms • Postzygotic or postmating isolating mechanisms: • Gamete mortality • Zygote mortality • Hybrid unfitness or breakdown • Hybrid infertility or sterility (e.g. mule) http://en.wikipedia.org/wiki/Image:Bg06.jpg

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