DNA and the Genome Key Area 7c Speciation.

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Presentation transcript:

DNA and the Genome Key Area 7c Speciation

Learning Intentions By the end of this topic you should be able to: (c) Speciation Define ‘species’ Define ‘speciation’ Explain the role of isolation in speciation Name 3 types of isolation barriers Describe the difference between allopatric and sympatric speciation Give an example of allopatric evolution of a species Give an example of sympatric evolution of a species Explain the role of mutation in speciation Explain the role of selection in speciation

Speciation

Species Definition A species is a group of organisms capable of interbreeding and producing fertile offspring, and which does not normally breed with other groups They are genetically isolated and cannot produce viable, fertile offspring with members of other groups The number and kinds of species are always changing due to extinction and speciation

Speciation Speciation is the generation of new biological species by evolution as a result of isolation, mutation and selection There are 2 types of speciation: Allopatric Speciation Sympatric Speciation

Allopatric Speciation Gene flow between 2 (or more) populations is prevented by a geographical barrier Examples of geographical barriers include: River Mountain range Desert Sea

In summary… The members of a large population of a species occupy an environment They share the same gene pool and interbreed freely

Population B Population A The population is split into two completely isolated sub-populations by a geographical barrier This prevents interbreeding and gene flow Population B Population A

Small mutant Large mutant Different mutations occur at random in each population This results in new variation within each group which is not shared by both groups Small mutant Large mutant

e.g. Large mutant may favour dry conditions Different selection pressures occur on each group due to different environments (climate, predation, disease…) Natural selection occurs in each of the 2 sub-populations e.g. Large mutant may favour dry conditions e.g. Small mutant may favour wet conditions

Over a long period of time natural selection increases/decreases the frequency of specific alleles The two groups gene pools are so altered the groups become genetically distinct and isolated Species A Species B

Speciation has occurred Species A and B cannot interbreed even if barrier is removed 2 separate distinct species have evolved

Sympatric Speciation In sympatric isolation, the 2 (or more) populations still live in close proximity in the same environment but they have become isolated due to: Behavioural barriers Ecological barriers Disruptive selection (2 distinct groups) promotes this type of speciation

In summary One large interbreeding population sharing the same ecological niche. (e.g. Fruit flies living on hawthorn bushes)

An alternative ecological/behavioural niche appears (e.g. new species of apple tree introduced by humans) Some members of the population start to exploit the new niche

The two populations now exploit different resources (e. g The two populations now exploit different resources (e.g. food source) and no longer interbreed. Behaviour has become an isolating barrier.

Mutants better adapted to exploit the new resources appear and successfully breed. (e.g. better camouflaged on apples)

Natural selection favours the new mutants and eventually over a period of time two genetically distinct species are formed which can no longer interbreed.