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Download 16-1 Genetic Equilibrium
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Chapter 16 Population Genetics and Speciation 16-1 Genetic Equilibrium Terms to Know Population genetics – study of evolution from a genetic point of view Microevolution – evolution at the genetic level Bell Curve – most members of the population have similar traits; only a few are at the extremes – Can SHIFT over time!!! Variations of Traits Within a Population Causes of Variation 1. Mutations 1. TAGATC -> TAAATC 2. Recombination (crossing-over and independent assortment) 1. (during meiosis – see pic!) – Random pairing of gametes – Which sex cells combine successfully The Gene Pool Gene pool = the total genetic information available in a population Allele Frequency = number of a certain allele / total number of alleles in a population – Calculated by … # of allele A total # of A and a What is the allele frequency? Half a population of four o clocks are red/ half are white. What is the frequency of the r allele? – 0.50 or 50% The Gene Pool Phenotype Frequency = # of individuals with a phenotype / total # of individuals within the population The Gene Pool Phenotype Frequency = # of individuals with a phenotype / total # of individuals within the population – # red flowers/ Total # of individuals Hardy – Weinberg Genetic Equilibrium 1. 2. 3. 4. 5. Ideal hypothetical population that is not evolving (ie not changing over time) 5 criteria (must be met) No net mutations occur No one enters or leaves the population The population is large Individuals mate randomly Selection does not occur Why might a population never be in HW genetic equilibrium??? 16-2 Disruption of Genetic Equilbrium Mutation 2. Gene flow – the process of genes moving from one population to the next - Immigration - Emigration 3. Genetic Drift – allele frequencies in a population change usually because the population is small 1. 4. Nonrandom mating – mate selection is influenced by geographic proximity, mates with similar traits, and sexual selection 5. Natural Selection – some members are more likely to survive and reproduce - stabilizing selection - disruptive selection - directional selection Types of Selection Stabilizing selection individuals with average forms of a trait have the highest fitness – Ex. Large lizards will be spotted by predators; small lizards can’t run fast enough to get away from predators Types of Selection Disruptive Selection – individuals with either extreme of the trait has the greatest fitness – Ex. White moths on white trees cannot be seen; Dark moths on dark trees cannot be seen; medium colored moths will be seen on both trees (eaten by birds) Types of Selection Directional selection – more extreme form of a trait has the greatest fitness – Ex. Anteaters with the longest tongues will get the most food 16-3 Formation of Species The Concept of Species Speciation – the process of species formation Morphology – internal and external appearance of an organism Species – morphologically similar and can interbreed to produce fully fertile offspring Morphological vs Biological Species Concept 2 competing concepts (ideas) on how to determine different species – Morph = based solely on appearance – Bio = based on who can reproduce with who successfully (not useful for extinct or asexual organisms) – What do we use today? Mix of BOTH!!! Isolation and Speciation Geographic isolation – physical separation of members of a species – Ex. River dries up into several small pools; fish diverged enough to be considered separate species Reproductive Isolation – species become genetically isolated – Ex. The offspring of interbreeding species may die early or may not be fertile – Ex. Different mating times Rates of Speciation Gradualism – speciation occurs at a regular, gradual rate Punctuated Equilibrium – sudden, rapid change then long periods of no change