Bottleneck
That is a condition of the Hardy-Weinberg law and the population is said to be in Hardy-Weinberg equilibrium , but it is an idealization that never happens in nature.
bottleneck
It is called: impossible. Allele frequencies are alwayschanging. If it's not under adaptive pressure, then it's genetic drift changing them. They may change (relatively) rapidly, or they may change very slowly, depending on the size of the population and other factors - but change they do.
That situation is called a Hardy-Weinberg equilibrium. Not actually seen outside of the lab.
It is called genetic equilibrium.
stabilizing equilibrium
A Hardy-Weinberg equilibrium condition.
It is a situation where allele frequencies remain constant.
no
allele
Natural selection on a single-gene trait can lead to changes in allele frequencies for the alleles of that gene.
population size decreases
Evolution; the change in allele frequencies over time in a population of organisms.
Genetic equilibrium is when the allele frequencies remain constant.
It is a situation where allele frequencies remain constant.
A population in which the allele frequencies do not change from one generation to the next is said to be in equilibrium.
no
allele
Yes
The frequency of the allele represents the percentage of that allele in the gene pool
Natural selection on a single-gene trait can lead to changes in allele frequencies for the alleles of that gene.
The population is evolving.
That situation is called a Hardy-Weinberg equilibrium. Not actually seen outside of the lab.
population size decreases