DOC PREVIEW
Berkeley BIOLOGY 1B - Evolution Lecture 5, Migration and forms of selection

This preview shows page 1-2 out of 5 pages.

Save
View full document
View full document
Premium Document
Do you want full access? Go Premium and unlock all 5 pages.
Access to all documents
Download any document
Ad free experience
View full document
Premium Document
Do you want full access? Go Premium and unlock all 5 pages.
Access to all documents
Download any document
Ad free experience
Premium Document
Do you want full access? Go Premium and unlock all 5 pages.
Access to all documents
Download any document
Ad free experience

Unformatted text preview:

Biology 1B—Evolution Lecture 5, Migration and forms of selection Migration • In evolutionary terms, migration is defined as movement that will result in gene flow, or the movement of genes from one place to another Roles in Evolution • Spreads “successful” mutation from one population to another through migration of individuals from place of birth to place of reproduction • Opposes the effects of genetic drift (divergence among populations) because it keeps genes flowing throughout; also opposes local selection • With migration, two populations’ allele frequencies come closer to equilibrium Take, for example, a contaminated mine area: Figure 23.12 (pg. 479, 8th edition) • A species of grass lives in both the mine soil and non-mine soil • In the mine soil, there is local selection for copper tolerance and on the non-mine soil, there is selection against copper tolerance because it is disadvantageous to have that trait in the absence of copper • In the contaminated soil, the frequency of the tolerance allele would be close to 1 (theoretically) whereas the frequency of the tolerance allele in the non-contaminated grass would be close to zero • However, due to wind migration of pollen, the distribution is different than predicted. By taking a transect sample across the mine and non-mine soil, a cline can be created:Here, the center line represents the divide between the contaminated and non-contaminated soil. P is the frequency of the phenotype for copper tolerance. Variation Within Populations Among Populations Mutation Genetic Drift Gene Flow Selection (and Genetic Fitness) • Fitness, as defined within evolutionary parameters, refers to an individual’s ability to produce viable and fertile offspring (nothing to do with working out in the gym!) • Natural selection acts through the phenotype (which is influenced by genotype) of individuals, and its effects are felt on the population • Furthermore, selection acts on the survival/reproduction of a heritable pheno/genotype relative to others within the population • Selection and fitness are environmentally dependent Variation in phenotype is often continuous – eg. for height – and reflects both genetic variaition for that trait within a population, and environmental variation through its effects on development.Phenotype Distribution and Evolution Figure 23.13 (pg. 480 8th edition) (a) Directional Selection: As shown above, individuals at the left-most end of the phenotype distribution have lower fitness &/or lower probability of surviving. As generations continue to reproduce with the same selective pressure, the curve is pushed to the right of the original because those phenotypes are more advantageous. (b) Disruptive Selection: Individuals with intermediate phenotpytes are selected against, so individuals on each extreme survive and go on to reproduce. If the next generation reproduces randomly, the original curve will return. However, if non-random mating occurs, speciation may be the result (more on this later). (c) Stabilizing Selection: In this case, both phenotypic extremes do not do well, so the middle phenotypic range increases in frequency. However, due to Mendelian inheritance, the generation following this selection will produce a generation similar to the original graph. However, this form of selection actively maintains genetic diversity in populations. Sickle-Cell Anemia Example: In the absence of malaria, genetic fitness is as follows: HbbAA>HbbAs>HbbssHbbss denotes individuals who have malformed red blood cells, and thus have trouble transporting oxygen in the blood. This causes health problems (anaemia) that often prevent the individual from reproducing. However, in the presence of malaria: HbbAs>HbbAA>Hbbss This is the case because individuals with the heterozygous genotype have a slight resistance to malaria (with the s allele), but are not afflicted with Sickle-Cell Anemia Darwin thought that evolution by natural selection was a very slow process, however it can also be very fast, only taking a few generations. Directional Selection is when the ideal phenotype shifts from that of the original population to a phenotype more adapted to the environment. For example, light-colored mice living on a dark lava flow are more visible to predators, leading to selection for darker colored mice and a shift in the population to a darker coat color. Figure 3: Different types of selection. Campbell 8th edition. Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings. (Pg 480) Scientists can generate experimental evidence using experiments with organisms that have a short life cycle, such as bacteria, yeast, and flies (Drosophila). For example, consider guppies. Females are more attracted to male guppies with many large brightly colored spots, than to male guppies with fewer, smaller, or duller spots. However, bright colors attract predators. So, the brightly colored guppies survive less but reproduce more, while duller fish survive more but reproduce less. Endlew and Reznick transplanted fish from a predator-filled pool at the bottom of a waterfall into the predator and guppy-free waters at the top of the waterfall. Therefore, a population of fish with drab colorations were moved into an environment with no predators. There, within generations the male fish quickly came to have more spots thatwere larger and more brightly colored. This field experiment demonstrates the response of heritable phenotypes to a change in selection for a trait. 1. Figure 1: Guppy Experiment Campbell 8th Edition. Copyright © 2008 Pearson Education, Inc., publishing as Pearson Benjamin Cummings (pg


View Full Document

Berkeley BIOLOGY 1B - Evolution Lecture 5, Migration and forms of selection

Documents in this Course
Notes 1

Notes 1

4 pages

EVOLUTION

EVOLUTION

12 pages

Evolution

Evolution

12 pages

Load more
Download Evolution Lecture 5, Migration and forms of selection
Our administrator received your request to download this document. We will send you the file to your email shortly.
Loading Unlocking...
Login

Join to view Evolution Lecture 5, Migration and forms of selection and access 3M+ class-specific study document.

or
We will never post anything without your permission.
Don't have an account?
Sign Up

Join to view Evolution Lecture 5, Migration and forms of selection 2 2 and access 3M+ class-specific study document.

or

By creating an account you agree to our Privacy Policy and Terms Of Use

Already a member?