The process by which individuals that are better adapted to their environment survive and reproduce more successfully.

The change in the frequency of an existing gene variant (allele) in a population due to random sampling of organisms.

The transfer of genes from one population to another.

The modification of gene expression rather than alteration of the genetic code itself.

A giraffe with a longer neck surviving better and having more offspring.

A small population of rabbits becoming isolated from their original population and developing different traits over time.

A bacteria developing resistance to antibiotics and passing this trait to its offspring.

A flower being pollinated more often because of its bright color.

The increase in genetic variation following a period of high mutation rates.

The decrease in a population's size when it expands too quickly.

The sudden reduction in a population's size due to environmental events.

The gradual change in species over time to adapt to their environment.

The loss of genetic variation when a new colony is established by a very small number of individuals from a larger population.

The effect of the first species to colonize a new habitat, dominating the ecosystem.

The phenomenon where the first gene variant to appear in a population rapidly becomes the most common.

The impact of the initial founding members of a population on the social structure of that population.

It has a larger effect because each individual represents a larger fraction of the gene pool.

It has a smaller effect because there are fewer alleles for selection.

It does not affect small populations, only large ones.

It increases genetic diversity in small populations.

In a large population with high gene flow.

In a small, isolated population.

In a population undergoing strong natural selection.

In a population where all individuals have equal fitness.

It is the primary driver of new species formation.

It can lead to the fixation or loss of alleles in a population, contributing to genetic variation.

It prevents populations from adapting to their environment.

It ensures that only the strongest alleles are passed down to future generations.

Population size.

Mutation rate.

Migration patterns.

Individual fitness.