true
Allele frequencies always drift to some degree. The rate of drift may be slower in large populations, but it is never zero.
Correct/true.
No such condition exists.
true
The genetic variation introduced during recombination provides new allelic combinations for natural selection to act upon.
Allele frequency is stable The phenotype frequency does not change.
im also stuckk
Genetic equilibrium is when the allele frequencies remain constant.
Allele frequency is stable.(Apex)
Allele frequency is altered by genetic drift, natural selection, migration, mutation, or nonrandom mating. This results in a change in genetic equilibrium in a population that is evolving. Evolution leads eventually to speciation.
No. Evolution is the change in allele ( different molecular forms of the same gene ) frequency over time in a population of organisms. No equilibrium there.
The genetic variation introduced during recombination provides new allelic combinations for natural selection to act upon.
Random change in allele frequency is called genetic drift.
Random change in allele frequency is called genetic drift.
Allele frequency is stable The phenotype frequency does not change.
im also stuckk
Genetic equilibrium is when the allele frequencies remain constant.
Allele frequency is stable.(Apex)
you do not provide any choices, so it is impossible to answer your question as stated.
Allele frequency is stable
Think frequent. More of the allele in the populations gene pool and there is a change in the alleles frequency. Some goes for less of the allele.