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20 Jul 2019
Imagine a population of 1000 individuals that is at its carrying capacity, and a new asexual mutant appears in the next generation. Assuming the asexual mutant survives to reproduce, and that asexuals and sexuals have the same fecundity and probability of survival, calculate how many generations it takes for the asexual individuals to drive the sexual individuals to extinction. A.Less than 10. B.Between 10 and 20. C. Between 20 and 30. D. More than 30.
Imagine a population of 1000 individuals that is at its carrying capacity, and a new asexual mutant appears in the next generation. Assuming the asexual mutant survives to reproduce, and that asexuals and sexuals have the same fecundity and probability of survival, calculate how many generations it takes for the asexual individuals to drive the sexual individuals to extinction. A.Less than 10. B.Between 10 and 20. C. Between 20 and 30. D. More than 30.
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Jean KeelingLv2
21 Jul 2019