Respuesta :
Answer:
Population size is large and the population exhibits random mating. Natural selection, gene flow, and mutation are not operative on this population.
Explanation:
A population can maintain the allele frequencies over several generations under certain conditions. This population is said to be in Hardy-Weinberg equilibrium. Such a population would have a large size so that any chance event does not change the allele frequencies. The members of this population should mate randomly as preferences for mate affect the gene pool. Similarly, evolutionary forces should not be working on the gene pool of this population so that the population can remain in the Hardy-Weinberg equilibrium.
Answer:
Random mating between the individuals of population.
Explanation:
Random mating refers to a condition in which all the members of a population have equal chances of mating with the opposite sex and is not prevented by any type of physical, psychological, biological, genetical and other barriers and the gene flows in the population.
In the given question, since the genotype of the population has not changed in the next generation, therefore, the population is following the assumptions of the Hardy Weinberg equilibrium in which the most important is that the individual is randomly mating with each other or show equal potency to mate with the opposite sex.
Thus, random mating is the correct answer.
