no
allele
The term used to describe the generation-to-generation change in allele frequencies of a population is simply evolution. Simple answer for a complicated-looking question. ;) Hope this helps.
It is a situation where allele frequencies remain constant.
Described by the definition for evolution. Evolution is the change in allele frequency over time in a population of organisms.The prefered terms are evolution ( instead of microevolution ) and speciation ( instead of macroevolution ).
Natural selection on a single-gene trait can lead to changes in allele frequencies for the alleles of that gene.
allele
Microevolution is the changes in allele frequencies due to mutation, natural or artificial selection, gene flow, and genetic drift. These changes occur over a long period of time within a given population.
The term used to describe the generation-to-generation change in allele frequencies of a population is simply evolution. Simple answer for a complicated-looking question. ;) Hope this helps.
yes
A change in allele frequencies is more likely to produce microevolution, as it involves small-scale changes in the genetic makeup of a population over generations. These changes can result in adaptations to specific environments or selection pressures but do not lead to the formation of new species or higher taxonomic groups, which characterize macroevolution.
Genetic equilibrium is when the allele frequencies remain constant.
Microevolution is the change in allele frequencies brought about by mutation, genetic drift, gene flow, and natural selection below the species level. Over time, microevolution can translate into macroevolution, which is larger scale change above the species level.Microevolution is simply a change in gene frequency within a population. Evolution at this scale can be observed over short periods of time.
It is a situation where allele frequencies remain constant.
By simple genetic recombination for one. microevolution is just evolution and evolution is the change in allele frequency over time in a population of organisms. Just change over time short of speciation and especially valid for sexually reproducing organisms who always change allele frequencies through coitus and reproduction.
A population in which the allele frequencies do not change from one generation to the next is said to be in equilibrium.
Yes
Described by the definition for evolution. Evolution is the change in allele frequency over time in a population of organisms.The prefered terms are evolution ( instead of microevolution ) and speciation ( instead of macroevolution ).