question 2\na species has evolved an asexual mode of reproduction by having offspring develop from…

question 2\na species has evolved an asexual mode of reproduction by having offspring develop from unfertilized eggs. which of the following will be true of this species response to natural selection?\nthere will be more deaths from natural selection because there is no mutation.\nthere will be fewer deaths from natural selection because sexual recombination always leads to extinction.\nthe species will compensate for loss of genetic variation by hybridizing with other species.\nthere will be less genetic variation from sexual recombination and a risk of not adapting quickly to environmental change.\nthe species will increase in numbers because genetic variation is increased.

question 2\na species has evolved an asexual mode of reproduction by having offspring develop from unfertilized eggs. which of the following will be true of this species response to natural selection?\nthere will be more deaths from natural selection because there is no mutation.\nthere will be fewer deaths from natural selection because sexual recombination always leads to extinction.\nthe species will compensate for loss of genetic variation by hybridizing with other species.\nthere will be less genetic variation from sexual recombination and a risk of not adapting quickly to environmental change.\nthe species will increase in numbers because genetic variation is increased.

Answer

Brief Explanations:

Asexual reproduction from unfertilized eggs (parthenogenesis) means no sexual recombination. Sexual recombination generates genetic variation which helps in adapting to environmental changes. Without it, a species has less genetic variation and may struggle to adapt quickly. Mutations can still occur in asexual species, sexual recombination doesn't always lead to extinction, and hybridizing isn't a guaranteed compensation. Also, asexual reproduction typically doesn't increase genetic variation.

Answer:

There will be less genetic variation from sexual recombination and a risk of not adapting quickly to environmental change.