What conditions must be met for a population to be in Hardy Weinberg check all that apply?

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.

What conditions are required for a population to be in Hardy-Weinberg equilibrium?

Hardy-Weinberg equilibrium has a set of conditions that must be met in order for the population to have unchanging gene pool frequencies. There must be random mating, no mutation, no migration, no natural selection, and a large sample size. It is not necessary for the population to be at carrying capacity.

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Which of the following conditions must be met in order for a population to be in Hardy-Weinberg equilibrium check all that apply?

The conditions to maintain the Hardy-Weinberg equilibrium are: no mutation, no gene flow, large population size, random mating, and no natural selection. The Hardy-Weinberg equilibrium can be disrupted by deviations from any of its five main underlying conditions.

Which assumption must be met for a population to be in Hardy-Weinberg equilibrium for a specific gene?

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

Why do small populations violate the conditions that must be met for a population to be in Hardy-Weinberg equilibrium?

The smaller the population, the greater the impact of genetic drift. This is because the smaller the population, the more likely that some alleles will become fixed and others will become extinct. Removal of alleles from a population changes allele frequencies in the population.

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.

What is one condition that must be met for a population to be in genetic equilibrium?

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.

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.

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What is random mating in biology?

Random mating – Random mating refers to matings in a population that occur in proportion to their genotypic frequencies. For example, if the genotypic frequencies in a population are MM=0.83, MN=0.16 and NN=0.01 then we would expect that 68.9% (0.83 x 0.83 X 100) of the matings would occur between MM individuals.

What assumptions must be met for a population to be in Hardy-Weinberg Equilibrium quizlet?

TestNew stuff! 3. * What assumptions must be met for a population to be in Hardy-Weinberg equilibrium? Large population, random mating, and not affected by migration, selection, or mutation.

What are the assumptions of the Hardy-Weinberg Equilibrium quizlet?

What are the assumptions of Hardy-Weinberg Equilibrium? large populations, no genetic drift, no natural selection/mutation or migration, no assortative mating /sexual selection or inbreeding.

Which of the following is not an assumption required for Hardy-Weinberg Equilibrium?

Which of the following is NOT an assumption required for Hardy-Weinberg equilibrium? Explanation: Hardy-Weinberg states that for a population to be in equilibrium, it must not be experiencing migration, genetic drift, mutation, or selection. By this definition, population size cannot fluctuate.

What is the impact of small population size of population genetics?

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.

Why does the population not continue to grow exponentially?

In the real world, with its limited resources, exponential growth cannot continue indefinitely. Exponential growth may occur in environments where there are few individuals and plentiful resources, but when the number of individuals becomes large enough, resources will be depleted, slowing the growth rate.

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Which of the following factors affecting population growth is density independent?

These density-independent factors include food or nutrient limitation, pollutants in the environment, and climate extremes, including seasonal cycles such as monsoons. In addition, catastrophic factors can also impact population growth, such as fires and hurricanes.