You mama
The allele frequency does not change.
The Phenotype frequency does not change
Ap#x
the phenotype frequency does not change
The phenotype frequency does not change
Allele frequency is stable
the gene pool stays the same - apex
The allele frequency does not change :apex
When a population is not evolving, it means that the allele frequencies within the population are remaining stable over generations. This could occur if the population is experiencing no mutations, no gene flow, no genetic drift, no natural selection, and if mating is completely random. In essence, the population is in Hardy-Weinberg equilibrium.
That situation is called a Hardy-Weinberg equilibrium. Not actually seen outside of the lab.
Yes. This answer is TRUE. (I am an Anthropology Grad student).
In a lab setting, the condition of large population size is likely the easiest to meet for a biologist studying a small fish population. Maintaining a large breeding population in a controlled lab environment can help ensure genetic diversity and minimize the effects of genetic drift.
As far as I know, if a species is under genetic equilibrium, the Hardy-Wienberg principle says that evolution will not happen at all, much less cause it in a rapid burst of time.
The Hardy Weinberg Principle states that a trait that is neither selected for or against will remain at the same frequency in the population. Therefore, traits in a population that are neither selected for or against are in equillibrium and remain in the population at a steady state.
The Hardy Weinberg Principle states that a trait that is neither selected for or against will remain at the same frequency in the population. Therefore, traits in a population that are neither selected for or against are in equillibrium and remain in the population at a steady state.
When a population is not evolving, it means that the allele frequencies within the population are remaining stable over generations. This could occur if the population is experiencing no mutations, no gene flow, no genetic drift, no natural selection, and if mating is completely random. In essence, the population is in Hardy-Weinberg equilibrium.
rarely
the phenotype frequency does not change
Hardy-Weinberg equilibrium
Hardy-Weinberg equilibrium
If a new allele appears in a population, the Hardy-Weinberg formula cannot be used. This is because there is now no equilibrium.
Conditions of the Hardy-Weinberg EquilibriumRandom matingNo natural selectionNo gene flow (migrations)Large population sizeNo mutations
Hardy and Weinberg wanted to answer the question of how genetic variation is maintained in a population over time. They developed the Hardy-Weinberg equilibrium principle, which describes the expected frequencies of alleles in a population that is not undergoing any evolutionary changes.
Yes it is obtainable in plant population
Allele frequency is stable