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Transcript
Exciting Evolution Chapter 22 I. Science as a Process A. Linnaeus (1707-1778) – specialized in Taxonomy – naming and classifying organisms. Grouped similar species into categories showing relationships Developed binomial (two part) naming according to genus and species (i.e. Homo sapiens) Science as a Process Kingdom-Phylum-Class-Order-Family-GenusSpecies B. Early Theories of Change To Explain the fossil record Catastrophism – each boundary between strata corresponded in time to a catastrophe (flood/drought etc) that destroyed many species living at the time. Other species moved to these areas from surrounding areas. Early Theories of Change To Explain the fossil record Gradualism – profound change is the cumulative product of slow but continual processes (canyons formed by rivers cutting through rocks Science as a Process Uniformitarianism – geologic processes have not changed throughout Earth’s history (ex. forces that build mtns and erode mtns are the same now as in the past) C. First Evolution Hypothesis Jean Baptiste Lamarck –published his theory of evolution in 1809 1. Use and Disuse – those parts of the body used extensively to cope with the environment becomes larger and stronger while those not used deteriorate 2. Inheritance of Acquired Characteristics – modifications an organism acquires during its lifetime can be passed along to its offspring. II. Darwin’s Descent with Modification A. Conclusions 1. Earth must be old (6000 + years) 2. Slow and subtle processes over long periods of time can add up to substantial change Darwin (cont) Unity of life – all organisms are related through descent from some unknown ancestor that lived in the remote past. As the descendents moved into various habitats over millions of years, they accumulated diverse adaptations that helped them survive in their environment Darwin’s Observations 1. Members of a population often vary greatly in their traits 2. Traits are inherited from parents to offspring 3. All species are capable of producing more offspring than their environment can support 4. Due to lack of food or other resources, many offspring do not survive Inference 1 Individuals whose inherited traits give them a higher probability of surviving and reproducing in a given environment tend to leave more offspring than other individuals Inference 2 This unequal ability of individuals to survive and reproduce will lead to the accumulation of favorable traits in the population over generations Natural Selection A process where individuals that have certain heritable characteristics survive and reproduce at a higher rate than other individuals. Over time, natural selection can increase the match between organisms and their environment If an environment changes, or if individuals move to a new environment, natural selection may result in adaptation to these conditions Evolution Change in the genetic composition of the population over time Individuals cannot evolve, only a population of interbreeding individuals Only heritable traits can be amplified by natural selection (not traits acquired in lifetime – like big muscles) Examples of natural selection Galapagos finches – beaks different depending on food source Antibiotic resistance of bacteria Insecticide resistance in insects Drug Resistant HIV (due to differences in reverse transcriptase enzymes) III. Other Evidences of Evolution A. Homology – similarities in characteristics resulting from common ancestry 1. Anatomical Homologies – similar structures in organisms with similar ancestry (bones in human arm, cat paw, whale flipper, bat wing) *vestigial organs- structures of little or no importance to an organism (like our appendix) – may have had a job in ancestor A. Homology 2. Embryological Homologies- similarities in embryonic development ex. all vertebrate embryos have pharyngeal pouches 3. Molecular Homologies – certain characteristics are shared by all organisms at the molecular level DNA and RNA – universal genetic code Many similar proteins B. Biogeography geographic distribution of species Species tend to be more closely related to other species from the same area than to other species with the same way of life but living in different areas Islands are a perfect example of biogeographical evidence of evolution ex. finches in Galapagos, honeycreepers and fruit flies in Hawaii C. Fossil Record Prokaryotes are thought to be the earliest organisms, and the oldest known fossils are prokaryotes. Vertebrates appear in the fossil record as they are believed to have evolved Fish – amphibians – reptiles – mammals and birds Convergent Evolution Independent evolution of similar features in different lineages Develop similar characteristics due to living in similar environments ex. Sugar glider (marsupial) and flying squirrel (placental mammal)
