Concept 14.4 pp. 310-316 Gene Pools. Gene Pool Definition- consists of all the alleles in all the...
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Transcript of Concept 14.4 pp. 310-316 Gene Pools. Gene Pool Definition- consists of all the alleles in all the...
Concept 14.4 pp. 310-316
Gene Pools
Gene PoolDefinition- consists of all the alleles in all
the individuals that make up a population.A population is the smallest level at which
evolution can occur.The gene pool is the reservoir of genes.It supplies the genetic variation for
evolution.Sexual recombination- meiosis and
fertilization provide variety in offspring.Mutations & sexual recombination –random
and cannot be predicted.
Gene PoolDefinition- frequency of
alleles- how often certain alleles occur in the gene pool.Expressed as a decimal or %.
Each plant has 2 alleles for color- 20 total alleles.14 red alleles (70%) and
6 white alleles (30%)
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MicroevolutionDefinition- evolution on a small scale
generation to generation change in the allele frequency within a population.
Hardy-Weinberg Equilibrium-Describes populations in which the gene pool does not change.
Such populations have constant allele frequencies; are not evolving.
Rare for populations to remain in H-W equilibrium.
Serves as a no-change baseline
Changes to a gene pool
2 main factors-Genetic driftNatural Selection
Genetic Drift- Definition-a change in the gene pool due to chance.
It is by chance which organisms will successfully reproduce passing on alleles to the next generation.
The first generation of the small wildflower population illustrated consists of nine plants with red flowers (RR and Rr) and one plant with white flowers (rr). It is partly chance that affects which plants reproduce. By the third generation, no plants carry the allele for white flowers. The result is a change in allele frequencies in this population
The smaller the population the greater the impact of genetic drift.
Larger populations are more stable.Reducing the size of a population
reduces the size of its gene pool and reduces genetic variation in a population.May affect a population’s ability to adapt.
2 situations that drastically reduce the size of a populationBottleneck Effect-disasters Founder Effect- new colonies
Bottleneck Effect- earthquakes, floods, droughts, and fires
Marbles falling through the narrow neck of a bottle serve as an analogy for the bottleneck effect. Compared to the original population (in the bottle) the new population has less variation
Gene FlowThe exchange of genes with another population.
Migration of fertile individuals between populations.
Gene flow reduces genetic differences between populations and could result in a single population.
Mutations- have a key role as the original source of genetic variation for natural selection.Especially important in asexually reproducing organisms- bacteria.
Biological Fitness- Contribution to the gene pool of the next generation.
Production of healthy, fertile offspring is what counts in natural selection.
Darwin’s FinchesPeter and Rosemary Grant’s Research30 yr. Study in the Galapagos.2 species of finches with different beak
sizes.Their data related beak size to changes in
environment- wet and dry seasons and types of seeds available.
Data provided evidence for natural selection occuring in a shorter time span.
Figure 14-31.
Grants’ Finches on Daphne Major