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This concept explores the various sources of evidence for common ancestry among species, including fossils, relative dating, geography, embryology, anatomy, and molecular genetics. It discusses the different types of fossils, the use of isotopes in dating fossils, the role of geography in determining species variation, the similarities in embryonic development among diverse organisms, the presence of homologous and analogous structures, and the molecular and genetic evidence for a common ancestor.
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KEY CONCEPT Evidence of common ancestry among species comes from many sources.
Evidence for evolution in Darwin’s time came from several sources. Fossils: • Fossils provide evidence of evolution. • Fossils in older layers are more primitive than those in the upper layers. • Extinct Fossils resemble modern animals. This shows a common ancestry.
There are several types of fossils. • Permineralization occurs when minerals carried by water are deposited around a hard structure. b) A natural cast forms when flowing water removes all of the original tissue, leaving an impression. c) Amber-preserved fossils are organisms that become trapped in tree resin that hardens after the tree is buried. d) Preserved remains form when an entire organism becomes encased in material such as ice, ash,etc.
Relative dating estimates the time during which an organism lived. • It compares the placementof fossils in layers of rock. • Scientists infer the order inwhich species existed.
Isotopes are unstable in their nuclei, so they decay Isotopes have a known half life (rates of decay are known). Half life = number of years it takes for half of the isotopes to decay 14C has a half life of 5700 years, and 14N is a decay product Age determined by comparing ratio of 14C to 14N Wider ratio = older samples • Isotopes: atoms of the same element with differing neutrons • Ex: 12C and 14C • 12C = 6 protons + 6 neutrons • 14C = 6 protons + 8 neutrons Radiometric Dating
2. Geography • The study of geography provides evidence of evolution. • island species most closely resemble nearest mainland species • populations can show variation from one island to another
Larva Adultbarnacle Adult crab 3. Embryology • Embryology provides evidence of evolution. • identical larvae, different adult body forms • similar embryos, diverse organisms • Shows common ancestry
Homologous structures are similar in structure but different in function. • Homologous structures are evidence of a common ancestor. 4. Anatomy • The study of anatomy provides evidence of evolution. flipper leg wing arm flight swimming walking grasping
Human hand Mole foot Bat wing Fly wing • Homologous structures are different than Analogous Structures • Analogous structures have a similar function. • Analogous structures are not evidence of a common ancestor.
Structural patterns are clues to the history of a species. • Vestigial structures are remnants of organs or structures that had a function in an early ancestor. • Examples include ostrich wings, human appendix, and wisdom teeth, whale and snake pelvis/hind legs.
5. Molecular and Genetic Evidence • AKA Biochemical Evidence • Two closely-related organisms will have similar DNA, RNA, and protein (amino acid) sequences. • This also gives evidence of a common ancestor.