Which of these populations could meet the criteria required for Hardy Weinberg equilibrium?

To meet Hardy-Weinberg criteria, a population must be very large (preferably infinite) and exhibit no mutation, no net migration, no natural selection, and no non-random mating. Of the choices, all break one of these criteria except the large population of wildcats.

Which of the following are true for a population that is in Hardy-Weinberg equilibrium?

What must be true for a population to be in Hardy-Weinberg equilibrium? There must be random mating in the population; there must be an infinite population size; and there must be no evolution occurring (no natural selection, no genetic drift, no migration and no mutation).

Which 5 conditions must be met for a population to maintain Hardy-Weinberg equilibrium from one generation to the next?

The Hardy-Weinberg model states that a population will remain at genetic equilibrium as long as five conditions are met: (1) No change in the DNA sequence, (2) No migration, (3) A very large population size, (4) Random mating, and (5) No natural selection.

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What five conditions must be met for Hardy-Weinberg equilibrium?

There are five basic Hardy-Weinberg assumptions: no mutation, random mating, no gene flow, infinite population size, and no selection. If the assumptions are not met for a gene, the population may evolve for that gene (the gene’s allele frequencies may change).

Which of the following must be true in order for a specific allele in a population to remain in a state of equilibrium?

Which of the following must be true in order for a specific allele in a population to remain in a state of equilibrium? Correct Answer(s) : No mutation, natural selection, or gene flow occur in relation to a specific allele.

Which assumption must be met for a population to be in Hardy?

The five assumptions of Hardy-Weinberg equilibrium are a large population size, no natural selection, no mutation rate, no genetic drift, and random mating.

What are the 5 evolutionary mechanisms?

There are five key mechanisms that cause a population, a group of interacting organisms of a single species, to exhibit a change in allele frequency from one generation to the next. These are evolution by: mutation, genetic drift, gene flow, non-random mating, and natural selection (previously discussed here).

What does it mean for a population to be in Hardy-Weinberg equilibrium quizlet?

Hardy-Weinberg equilibrium: the condition in which both allele and genotype frequencies in a population remain constant from generation to generation unless specific disturbances occur.

Is it common for natural populations to be in Hardy-Weinberg equilibrium?

The Hardy-Weinberg equilibrium is a principle stating that the genetic variation in a population will remain constant from one generation to the next in the absence of disturbing factors. … Because all of these disruptive forces commonly occur in nature, the Hardy-Weinberg equilibrium rarely applies in reality.

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Which of the following is true of evolutionary forces in natural populations?

What is true about evolutionary forces in natural populations? Evolutionary forces can alter allele frequencies in natural populations. Which type of selection acts to eliminate individuals which are intermediate on a phenotypic range? What is the ultimate source of new alleles?

Which of the following is more likely to occur when a population of organisms is small?

Small populations tend to lose genetic diversity more quickly than large populations due to stochastic sampling error (i.e., genetic drift). This is because some versions of a gene can be lost due to random chance, and this is more likely to occur when populations are small.

Which of the following is a possible outcome of persistent geographical isolation of two populations?

Which of the following is a possible outcome of persistent geographical isolation of two populations? Allopatric speciation could occur.