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Transcript
Evolution http://www.youtube.com/watch?v= 7hUNBhRiKCI Origins and History of Life • Earth was formed ~ 4.6 billion yrs ago • Formation of Earth: Current theory suggests that pieces of debris were attracted to one another and provided precursors for biochemical molecules • Early atmosphere was very different from today - H, methane, ammonia Where did the first living things come from? Abiogenesis: • Originally, spontaneous generation (Redi and Pasteur)….. Miller and Urey • Stanley Miller and Harold Urey (1950’s) tried to simulate early Earth • Hoped experiments would give rise to biological molecules that could have developed into the first living organisms • Essentially, carbon (from methane) was converted to amino acids • According to many, this experiment and its downfalls actually did more to disprove abiogenesis than support the theory • Abiogenesis- living things come from nonliving • Biogenesis- living things come from other living things (ex: spider lays eggs that develop into a spider) Primitive Organisms • Fossil evidence suggests that the first unicellular organisms existed more than 3.5 billion years ago • These organisms evolved in the absence of oxygen • Over time, Bacteria became common (could photosynthesize and make oxygen as product) • Atmospheric oxygen levels increased • Those org. who could use oxygen evolved Origin of Eukaryotes-The Endosymbiotic Theory • Thought to have evolved from large prokaryote cells that ingested other free floating prokaryotes • Two most important organelles developed: mitochondria (c.r.) and chloroplasts (photo.) Fossils Fossil Records • Fossils are the preserved remains of an organism that lived many years ago • Fossils can be dated with a relationship to the layers of rock within which they can be found Fossils, cont. • Relative datingyoungest layer on top, oldest on bottom • Absolute datingprovides a specific date or numerical age of a fossil Fossils are important to study because….. Originally, we thought…. • Inheritance of acquired characteristics: characteristics acquired during lifetime, • i.e.: if you cut off your finger cutting wood, all of your offspring would be missing the same finger…..hmmmm…. • This theory also called the Use and Disuse Theory (by french naturalist Lamarck) • Organisms acquired or lost characteristics during their lifetime based on whether they needed the trait or not We can use fossil records to show similarities among organisms… • the same bones in the same relative positions are used in primate hands, bat wings, bird wings, pterosaur wings, whale and penguin flippers, horse legs, the digging forelimbs of moles, and webbed amphibian legs. • All of these characters have similar structures that perform various different functions. Evolution Notes, cont. • Char. of a theory: physical explanation of large sets of observations, based on physical evidence; must yield hypotheses that can be tested and results are consistent; it must be revisable The Modern Theory of Evolution • Charles Darwin- Theory of Evolution by Natural Selection; he proposed that new species could develop by a process of natural selection • A.k.a- survival of the fittest • Wrote “Origin of Species” • Studied the Galapagos Islands Modern Theory Of Evolution Summary of Darwin’s Theory • Individual organisms differ, some variations are heritable • Organisms produce more offspring than can survive, and many that do survive don’t reproduce • Organisms compete for resources Darwin’s Theory cont. • Individuals best suited for environment survive and pass heritable traits to their offspring. Others die or leave less offspring. • Species change over time due to natural selection • Species today are descended with modification from ancestral species. Evolution • Produces patterns in living organisms that include: – Variation- of org. due to random genetic mutations, deletions, etc. on chromosomes – Natural selection- severe competition exists and those that have the genetic variations that are suited to the enviro. survive – Adaptation- group of organisms that inherit variations that lead to survival Terms, cont. • Adaptive radiation- related species that look very diff. b/c have adapted to diff. enviro. • Speciation- if enviro. changes over time, or org. are separated in some way, changes may proceed in diff. directions for diff. groups; over time, the groups change so much, they can no longer interbreed, and they become separate species • Convergent evolution- different species adapt similar traits as a result of enviro. • Divergent evolution- related species evolve diff. traits • Directional selection- the enviro. favors a particular phenotype • Disruptive selection- org. at extremes are favored • Genetic equilibrium- org. is not evolving • Punctuated equil.- sexually reprod. org. show little change, and if it does, it is little and rapid Evidence of Evolution • Closely related org. have similar structures (homologous structures) • Structures in org. that are useless and appear to be leftovers from ancestors (vestigial structures) • Intermediate org. can be found in the layers of the earth and currently in existence • DNA sequences btwn org. are closely related (2% diff. btwn humans and chimps) • Closely related org. have sim. Behaviors • Geographic distribution (isolation)
