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yes
In the strict sense, no. Mutations happen to individuals and are only heritable in the germ line. Populations have allele frequencies in their gene pools. So, the mutation must be beneficial, lucky enough that it original carrier passes it on intact and that it is driven into the populations gene pool in sufficient number, by having reproductive success, to change allele frequencies.
Genetic equilibrium is when the 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.
The change of genetic information within an organism is known as a genetic mutation. It may also be refereed to as a change in allele frequencies when populations are examined.
yes
They don't - at least, not individually. Evolution is measured as the shifting of allele frequencies in populations.
If there is a large amount of genetic drift :)
In the strict sense, no. Mutations happen to individuals and are only heritable in the germ line. Populations have allele frequencies in their gene pools. So, the mutation must be beneficial, lucky enough that it original carrier passes it on intact and that it is driven into the populations gene pool in sufficient number, by having reproductive success, to change allele frequencies.
Genetic equilibrium is when the allele frequencies remain constant.
Changes in allele frequencies Novanet
Changes in allele frequencies Novanet
Changes in allele frequencies Novanet
If the populations have healthy reproductive ratesgot you guyssss2pro was heresnap me ppl 14-18 plz cuz im 16 ;--;king.2pro
They have different allele frequencies.
It is a situation where allele frequencies remain constant.
The five Hardy-Weinberg principles for non-evolving populations are extremely large population size, no gene flow, no mutations, random mating, and no natural selection. An extremely large population size is necessary because the smaller the population, the greater the role chance fluctuations play in allele frequencies from generation to generation. It is important that there is no gene flow because that transfer of alleles between populations can alter allele frequencies. Similarly, mutations modify the gene pool by introducing/removing genes from chromosomes or by changing one allele into another. Random mating is important so that individuals do not preferentially choose certain genotypes in their mates. Also, there must be no natural selection because if individuals carrying different genotypes had different survival and reproductive success, then that would alter the allele frequencies.