1 / 20

Charles Darwin 1809-1882 Natural Selection

Charles Darwin 1809-1882 Natural Selection. Natural Selection “Survival of the fittest”. *Natural Selection 1. There is genetic variation in populations

konopka
Download Presentation

Charles Darwin 1809-1882 Natural Selection

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Charles Darwin 1809-1882Natural Selection

  2. Natural Selection “Survival of the fittest” *Natural Selection 1. There is genetic variation in populations 2. There is competition/a struggle for existence in nature—for food, resources, mates, etc. Invidiuals which are more fit in a specific environment have a better chance of surviving and reproducing than less fit organisms. 3. Over time, generations will consist of organisms whose genetic variations aid survival and reproduction in that environment.

  3. Natural Selection • Important note: The fittest does not always mean the largest, strongest, or smartest. • Fitness depends upon specific environmental conditions. • Sometimes fittest means smallest, or best camouflaged, or most adaptable, etc.

  4. Evolution • Natural Selection leads to evolution, because natural selection causes change • Evolution—change in a population/species over time

  5. Artificial Selection Sometimes evolution can be “man-made” Selective breeding— When humans breed exceptional plants and animals in order to produce desired offspring. Ex: racing horses, purebred dogs Genetic engineering – Evolution by design

  6. Mechanisms of Evolution—how it happens • Populations (species) evolve, not individuals. • Evolution occurs when a population’s gene frequencies change over time. • Small populations that interbreed will have many mutations and therefore will see greatest potential for evolutionary changes.

  7. The genes Gene pool - a population’s collective genes Allelic frequency—The % of an allele in a population (ex: 25% “t” in a pea plant population) Genetic Equilibrium—When the allelic frequency remains the same over generations (no evolution) This can happen when there is no movement into or out of a population.

  8. Mechanisms of Evolution • So, when a population is NOT in genetic equilibrium, when the gene pool changes, populations evolve. • When mutations occur, creating new alleles, and individuals with that mutation survive and reproduce, the gene pool is altered, leading to evolution.

  9. Natural Selection Revisited • There are 3 types of natural selection: • Stabilizing Selection—the average individual is selected for • Disruptive Selection—Both extreme variations of a trait are selected for • Directional Selection—One extreme variation of a trait is selected for

  10. 3 types of selection graphs

  11. Genetic Drift “Evolution by chance” • Genetic drift—Changesin the allelicfrequency of a population due tochance events. • Founder effect—evolution as the result of a migration of a small subgroup of a population to a new environment. • Population Bottleneck—When an environmental catastrophe drastically reduces the numbers of a population, eliminating huge amounts of genetic diversity. Ex: humans 70,000 years ago

  12. Speciation • Speciation—Evolution of a new species

  13. Reproductive Isolation • Reproductive isolation—When subgroups of a population can no longer interbreed and produce fertile offspring • Behavioral isolation—isolation due to different courtship rituals or reproductive strategies Ex: Eastern & Western Meadowlark songs

  14. Reproductive Isolation • Temporal Isolation—Isolation due to population groups reproducing at different times. Ex: flowers being pollinated at different times of the year

  15. Reproductive Isolation • Geographic isolation—Isolation of populations due to geographic barriers Ex: South American and African monkeys

  16. Adaptive Radiation • Adaptive Radiation—When one ancestral species spreads out geographically, and many new species form over time. • One species radiates outward and each subgroup adapts to its own unique environment • Speciation of multiple species from one ancestral species—a type of divergent evolution Ex: “Darwin’s Finches” of the Galapagos Islands

  17. Darwin’s Finches—Adaptive Radiation

  18. Mutations lead to Evolution DNA mutations can lead to new genes/new traits in individuals within a population. If these new traits are favorable in the organisms’ environment, and help it survive and reproduce, then the genes will be passed on to offspring. The greatest potential for evolutionary change would involve a small population, with many mutations

  19. Mutations and bacteria Antibiotic Resistance—DNA mutations in bacteria can prevent them from being killed by medicine. They survive, then continue to grow and divide as bacteria do. Soon, all of that type of bacteria has evolved resistance.

  20. Gradualism—Speciation occurs at a slow, steady pace Punctuated Equilibrium—Speciation occurs quickly, with long periods of genetic equilibrium in between Gradualism vs. Punctuated Equilibrium Most likely both are true, both are supported by fossil evidence

More Related