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What are the four evolutionary forces that would disrupt the population?
What are the four evolutionary forces that would disrupt the population?
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Solution
Evolution:
- Evolution is the gradual change in the inherited traits of biological populations over many generations.
- These traits are the expressions of genes that are transferred from parent to offspring during reproduction.
- Because of mutation, genetic recombination, and other causes of genetic variation, different traits frequently occur within a population.
- Evolution occurs when this variety is subjected to evolutionary processes like natural selection (including sexual selection) and genetic drift, which cause specific traits to become more or less prevalent within a population.
- Mutation, gene flow, genetic drift, and natural selection are four such evolutionary forces.
Mutation:
- In a gene pool, mutation produces new genetic variation.
- It's how all new alleles get their start.
- The mutations that matter for evolution in sexually reproducing organisms are those that occur in gametes.
- Only these mutations can be handed down to the next generation.
- The likelihood of a mutation in a gamete for any given gene is extremely low.
- As a result, mutations alone have little impact on allele frequencies.
Gene flow:
- Individuals move into or out of a population, causing gene flow.
- The rate of migration can have a big impact on allele frequencies if it's fast.
- Both the population they leave and the population they enter may have different allele frequencies.
Genetic Drift:
- In a small population, genetic drift is a random change in allele frequencies.
- Allele frequencies in the children may differ by chance from allele frequencies in the parents when a small number of parents generate a small number of kids.
- In a small population, it's also possible that the next generation will have different allele frequencies than projected.
- Allele frequencies may drift over time in this fashion.
- In a small population, genetic drift is a random change in allele frequencies.
Natural Selection:
- Natural selection affects an organism's phenotype or its traits that interact with the environment, but any phenotype having a genetic foundation (heritable) that facilitates reproduction may spread more widely in a population.
- This process can eventually lead to speciation when populations specialize for specific ecological niches over time (microevolution) (the emergence of new species, macroevolution).
- Modern biology is built around the concept of natural selection.
- He compared natural selection to artificial selection, which is the systematic favouring of animal and plant reproduction for features deemed desirable by human breeders.
- While random genetic drift can cause genotypes to progressively shift, natural selection continues to be the main mechanism for adaptive evolution.
Evolution:
- Evolution is the gradual change in the inherited traits of biological populations over many generations.
- These traits are the expressions of genes that are transferred from parent to offspring during reproduction.
- Because of mutation, genetic recombination, and other causes of genetic variation, different traits frequently occur within a population.
- Evolution occurs when this variety is subjected to evolutionary processes like natural selection (including sexual selection) and genetic drift, which cause specific traits to become more or less prevalent within a population.
- Mutation, gene flow, genetic drift, and natural selection are four such evolutionary forces.
Mutation:
- In a gene pool, mutation produces new genetic variation.
- It's how all new alleles get their start.
- The mutations that matter for evolution in sexually reproducing organisms are those that occur in gametes.
- Only these mutations can be handed down to the next generation.
- The likelihood of a mutation in a gamete for any given gene is extremely low.
- As a result, mutations alone have little impact on allele frequencies.
Gene flow:
- Individuals move into or out of a population, causing gene flow.
- The rate of migration can have a big impact on allele frequencies if it's fast.
- Both the population they leave and the population they enter may have different allele frequencies.
Genetic Drift:
- In a small population, genetic drift is a random change in allele frequencies.
- Allele frequencies in the children may differ by chance from allele frequencies in the parents when a small number of parents generate a small number of kids.
- In a small population, it's also possible that the next generation will have different allele frequencies than projected.
- Allele frequencies may drift over time in this fashion.
- In a small population, genetic drift is a random change in allele frequencies.
Natural Selection:
- Natural selection affects an organism's phenotype or its traits that interact with the environment, but any phenotype having a genetic foundation (heritable) that facilitates reproduction may spread more widely in a population.
- This process can eventually lead to speciation when populations specialize for specific ecological niches over time (microevolution) (the emergence of new species, macroevolution).
- Modern biology is built around the concept of natural selection.
- He compared natural selection to artificial selection, which is the systematic favouring of animal and plant reproduction for features deemed desirable by human breeders.
- While random genetic drift can cause genotypes to progressively shift, natural selection continues to be the main mechanism for adaptive evolution.
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