Evolution E-2 Study Guide PDF
Document Details
Tags
Summary
This document summarizes key concepts of evolutionary biology, including evolution, natural selection, and fitness as well as types of selection, and their respective effects. The content is designed for a biology student studying evolution.
Full Transcript
**I. Key Concepts in Evolutionary Processes** **1. Evolution:** **Phenotype- observable characteristics of an organism** - **Definition:** A change in allele frequencies in a population over time. - **Microevolution:** Small-scale changes within a species or population....
**I. Key Concepts in Evolutionary Processes** **1. Evolution:** **Phenotype- observable characteristics of an organism** - **Definition:** A change in allele frequencies in a population over time. - **Microevolution:** Small-scale changes within a species or population. - **Macroevolution:** Large-scale changes that result in the formation of new species or taxonomic groups. **2. Four Forces of Evolution:** - **Mutation:** Introduction of new alleles (can be beneficial, deleterious, or neutral). - **Gene Flow (Migration):** Movement of alleles between populations due to migration. - **Genetic Drift:** Random changes in allele frequencies, especially significant in small populations. - **Natural Selection:** The only evolutionary process that consistently increases adaptation. It favors traits that enhance survival and reproduction. **II. Natural Selection and Fitness** **1. Natural Selection:** - A process where certain phenotypes increase reproductive success, leading to changes in allele frequencies. - **Directional Selection:** Favors one extreme phenotype, causing allele frequencies to shift in one direction (e.g., antibiotic resistance). - **Stabilizing Selection:** Favors intermediate phenotypes and reduces genetic diversity (e.g., optimal birth weight). - **Disruptive Selection:** Favors extreme phenotypes at both ends, potentially leading to speciation (e.g., beak size in seedcrackers). - **Balancing Selection:** Maintains genetic diversity by favoring heterozygotes or rare alleles (e.g., heterozygote advantage in sickle-cell anemia). **2. Fitness:** - **Absolute Fitness:** The total number of offspring an individual contributes to the next generation. - **Relative Fitness (w):** The fitness of a genotype compared to the population average. - If relative fitness w\>1w \> 1w\>1, the allele increases in frequency. - If w=1w = 1w=1, the allele changes randomly. - If w\
