* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Natural selection
Survey
Document related concepts
Sexual selection wikipedia , lookup
Evolving digital ecological networks wikipedia , lookup
The Descent of Man, and Selection in Relation to Sex wikipedia , lookup
Theistic evolution wikipedia , lookup
Genetic drift wikipedia , lookup
Natural selection wikipedia , lookup
Hologenome theory of evolution wikipedia , lookup
Evidence of common descent wikipedia , lookup
Saltation (biology) wikipedia , lookup
Transitional fossil wikipedia , lookup
Inclusive fitness wikipedia , lookup
Genetics and the Origin of Species wikipedia , lookup
Evolutionary history of life wikipedia , lookup
Transcript
Darwin’s Theory of Evolution * • Evolution, is change over time, OR is the process by which modern organisms have descended from ancient organisms. • A scientific theory is a well-supported testable explanation of phenomena that have occurred in the natural world. Evolution is a Theory – Just like Gravity! • Evolution is a well supported explanation of phenomena that have occurred in the natural world • A theory in science is a well tested hypothesis, not just a guess Evolution is when organisms change over time. So, modern organisms descended from ancient ones Charles Darwin: Father of evolution.* Sailed around the world 1831-1836 How do you think Darwin came up with his theory? Voyage of the Beagle What did Darwin’s Travels reveal. * • The diversity of living species was far greater than anyone had previously known!! • These observations led him to develop the theory of evolution!! Patterns of Diversity • Darwin visited Argentina and Australia which had similar grassland ecosystems. – those grasslands were inhabited by very different animals. – neither Argentina nor Australia was home to the sorts of animals that lived in European grasslands. Living Organisms and Fossils.* • Fossils are the preserved remains of ancient organisms. • Some of those fossils resembled organisms that were still alive today. Living Organisms and Fossils • Others looked completely unlike any creature he had ever seen. • As Darwin studied fossils, new questions arose. – Why had so many of these species disappeared? Mass extinction How were they related to living species? Observation from their fossils. Fossils Types of fossils Cast Trace fossils Frozen or amber mold Imprints Petrified fossils Imprint The Galapagos Islands • A group of islands of the west coast of South America • The islands are close together but have very different climates • Darwin noticed that the characteristics of many plants and animals varied among islands. The Galapagos Island • The smallest, lowest islands were hot, dry, and nearly barren-Hood Islandsparse vegetation • The higher islands had greater rainfall and a different assortment of plants and animals-Isabela- Island had rich vegetation. Animal on the Galapagos Islands Land tortoises Blue footed booby Galapagos finches Marine Iguanas The Journey Home • Darwin Observed that • Many islands close together with different climates. • Characteristics of many plants and animals vary greatly among the islands Darwin finally published his ideas in 1859 in his book “The Origin of Species” that summarized all his findings from his trip around the world. Lamarck Theory of acquired characteristics Lamarck said organisms acquired traits by using their bodies in new ways These new characteristics were passed to offspring Lamarck was totally wrong! Evidence of Evolution 1. Fossil Record 2. Geographic Distribution of Living Species 3. Homologous Body structures 4. Similarities in Embryology Evidence of Evolution Fossil Record provides evidence that living things have evolved Fossils show the history of life on earth and how different groups of organisms have changed over time Relative vs. Absolute Dating Relative Dating Can determine a fossil’s relative age Performed by estimating fossil age compared with that of other fossils Drawbacks – provides no information about age in years Primate Fossils Australopithecus Homo erectus Homo sapien Homo habilis = handy human 1.5 to 2 mya Homo erectus 1.6 mya bipedal Modern Homo sapien (fully modern fossils 100,000 ya) 2. Geographic Distribution of Living Species Similar animals in different locations were the product of different lines of descent Homologous body structures Structures that have different mature forms but develop from the same embryonic tissues. Wings and legs all descended from fish fins. Turtle Alligator e.g. Wing of bat, human arm, leg of turtle Bird Homologous Body Structures Vestigial Organs – Vestigial structure: It is a structure without function or no use. e.g. Appendix in man Similarities in Embryology In their early stages of development, chickens, turtles and rats look similar, providing evidence that they shared a common ancestry. Embryological development Evolution by Natural Selection • Selection means to choose What do you think natural selection mean? (“Nature chooses”, chooses what? Best adaptations for survival) The Struggle for Existence-members of each species have to compete for food, shelter, other life necessities in order to survive. Survival of the Fittest-Some individuals are better suited for the environment. Organisms with most favorable adaptation will survive. Natural Selection Natural selection is the process by which individual organisms with favorable traits are more likely to survive and reproduce. Fitness is the ability of an individual to survive and reproduce in its specific environment. Adaptation: an inherited characteristic that increases an organism’s chance of survival. Artificial Selection Nature provides variation, humans select variations that are useful. Example - a farmer breeds only his best livestock. Components of Natural Selection • Not all individuals will be able to reproduce. • Due to environmental issues, illness, etc… • DIFFERENTIAL REPRODUCTION Birds eat green beetles, not brown ones. What’s Left? What’s the end result? Components of Natural Selection The brown trait has a genetic basis. The brown beetles that are left will mate and have brown offspring. This is called HEREDITY. • Finally, the brown trait (which is more advantageous) allows the beetle to survive in order to reproduce. • Eventually, all beetles in this population will be brown. • This PHENOTYPE has been SELECTED over the green phenotype. Image courtesy of http://evolution.berkeley.edu/evolibrary/article/_0_0 Descent with Modification • Descent with Modification- Natural selection produces organisms that have different structures, establish different niches or occupy different habitats. This causes today’s species to look different from their ancestors. Common Descent- were derived from common ancestors Summary of Darwin’s Theory 1. Organisms differ; variation is inherited. 2. Organisms produce more offspring than survive. 3. Organisms compete for resources. 4. Organisms with advantages survive to pass those advantages to their children. 5. Species alive today are descended with modifications from common ancestors. Evolution of Populations Occurs when there is a change in relative frequency of alleles VOCABULARY REVIEW • Evolution – change over time • NATURAL SELECTION – Individuals better adapted to the environment are able to survive and reproductive. – “SURVIVAL OF THE FITTEST” NEW VOCABULARY • POPULATION – Group of individuals of same species that interbreed. • GENE POOL – Common group of all genes present in a population. Variation and Gene Pool Combined genetic information of all members. Allele frequency is number of times alleles occur in the population. Evolution: Any change in the relative frequency of alleles in a population Single-Gene vs. Polygenic Traits Single-Gene trait: any trait controlled by one gene (example: tongue rolling) Natural selection on single-gene traits can lead to change in allele frequencies and thus evolution. Distinct phenotype Polygenic traits: any trait controlled by two or more genes (example: height in human) Many Phenotypes Natural selection can affect the distribution of phenotypes in any of three ways: 1.Directional selection- Individuals at one end of the curve have higher fitness than those in the middle. (Example: seed size and birds beak size) 2. Stabilizing selection-Individuals near the center of the curve have higher fitness than those at either ends of the curve. (Example: weight of human infants at birth). 3.Disruptive selection-Individuals at the upper and lower ends of the curve have higher fitness than those near the middle. (Eample: seed size and bird beak size). PHENOTYPE SELECTION • http://www.youtube.com/watch?v=aTftyFb oC_M • http://www.youtube.com/watch?v=Fvhk4H -3Z5g Natural Selection on Polygenic Traits Genetic Variation Gene Flow Movement of genes from one population to another. Mutation Sexual Reproduction Sexual reproduction causes new combinations of genes. Changes in DNA Sources of genetic Variation in Populations processes can lead to this: Mutations change in DNA sequence Gene Shuffling – from sexual reproduction What causes genetic variation? • The forces that causes population and species to evolve are: 1. Natural selection 2. Migration 3. Genetic drift 4. Mutation Genetic Drift • Genetic drift occurs only in small population What is genetic drift? • It is a random change in allele frequency causes an allele to become common. Effects of genetic Drift • Genetic drift has two main effects on population: 1. Bottle necking effect 2. Founder effect Bottle necking effect Reduction in a small population due to chance event. The surviving population does not represent the true original population. http://www.youtube.com/watch?v=6MJPhlkbUlA Use white/brown beans to explain this. Founder Effect: genetic drift due to the migration of a small subgroup of a population. (example: fruit flies migrating from mainland to different Hawaiian islands and) http://www.youtube.com/watch?v=5J1gdfgFhmg Hawaiian Honeycreepers An example of adaptive radiation – these species all diverged from a common ancestor (founder species) FOUNDER SPECIES Conditions needed for Genetic Equilibrium • Hardy Weinberg ‘s principle for the population to remain constant: 1. Population must be large 2. There must be no mutation 3. No sexual selection 4. No struggle for survival 5. No movement into and out of the popution(emmigration). GENETIC EQUILIBRIUM • http://www.youtube.com/watch?v=AU2XC DMdR9k • http://www.youtube.com/watch?v=AHkeo OeV16g SPECIATION Speciation is the formation of new species • As new species evolve, population become reproductively isolated. 1. Reproductive Isolation – Members of two population cannot interbreed & produce fertile offspring. ISOLATING MECHANISMS Behavioral Isolation - capable of breeding but have differences in courtship rituals (EX. Mead Table 23.1a Geographical Isolation – Separated by geographic barrier like rivers ,mountains, or bodies of water (ex: squirrel) Temporal Isolation – Two or more species reproduce at different times ISOLATING MECHANISMS…….. 2. Behavioral Isolation - capable of breeding but have differences in courtship rituals (EX. Meadowlarks) 3. Geographical Isolation – Separated by geographic barrier like rivers ,mountains, or bodies of water (ex: squirrel) 4. Temporal Isolation – Two or more species reproduce at different times. Table 23.1a