Bio 1B Lecture Outline please print and bring along B D Mishler Dept of Integrative Biology Fall 2008 2 6810 bmishler berkeley edu Evolution Lecture 3 Darwin Nov 7 2008 ch 22 450 467 I Summary of lecture Re cap of pre Darwinian views on evolution last lecture The principle of natural selection Observations prior to Darwin s voyage that support evolution structural and developmental homologies vestigial structures the fossil record geology Darwin s voyage on HMS Beagle biological richness of tropical forests fossils in the same area are related oceanic island species resemble those on the nearest mainland geographic distribution the environment per se is not creating the diversity Darwin s development of the theory of natural selection Since Darwin II Pre Darwinian views on evolution See Fig 22 2 for major milestones and section below on the fossil record The idea of evolution that living organisms have evolved from other organisms no longer alive on earth had been proposed by a number of researchers before 1858 when Darwin and Wallace proposed the mechanism natural selection Lamarck placed fossils in an evolutionary context including chronological series of older to younger fossils leading to modern species He also developed the theory of evolution by inheritance of acquired characteristics which we now know is incorrect inheritance of acquired characteristics organisms change physically as they strive to meet the demands of their environment and these changes are then passed on to future generations III The principle of natural selection and how this can lead to speciation 1858 Darwin and Wallace independently proposed the mechanism of biological evolution natural selection Darwin defined evolution as descent with modification see e g Fig 22 7 One modern definition is change over time in the genetic composition of a population Evolution 3 pg 1 Darwin realized that evolutionary change is a two step process the first step consists of the production of inherited variation and the second of the sorting of this variability by natural selection see Fig 1 21 Since there is high mortality amongst all species and many more individuals are born than needed to maintain the population size traits that increase the probability that their bearers will survive and reproduce relative fitness are more likely to be passed on to their offspring and to their offspring s offspring In the Darwinian view of the world organisms evolved their particular features because individuals with those features survived and reproduced better than individuals with different features So the living world is constantly changing and evolutionary change occurs without any goals We now know that chance genetic drift also plays a large role in the genetic differentiation of populations selectively equivalent neutral mutations can become established in a population Darwin also alluded to this in his writings IV Observations prior to Darwin s voyage that support evolution Summary structural homologies bones of all mammals also organs tissues etc developmental homologies characteristics are found in the embryo but not at birth which show our ancestry vestigial structures pelvic bones of whales appendix in humans the fossil record changes in features over time the older the fossils are the less they look like modern forms geology earth is old hence time for evolution to produce the huge diversity of living organisms and accumulation of slow changes over long periods leads to creation of valleys mountains etc metaphor for natural selection and creation of new species structural homologies that indicate close phylogenetic relationships homologous structures a homologous structure is an anatomical developmental behavioral or genetic feature shared between two different organisms because they inherited it from a common ancestor i e same evolutionary origin Evolution 3 pg 2 The feature e g anatomical structure may now differ in function and there may be structural differences observed but their evolutionary relationship is apparent Homology can be described as similarity between species that is not functionally necessary The closeness of the relationship between two groups of organisms is determined by the extent of homologous features the more homologous features two organisms share morphological developmental and genetic the more recent their common ancestor For example although the arms of four limbed vertebrates externally appear quite different all have the same basic underlying skeletal and muscular patterns and developmental patterns see Fig 22 14 developmental homologies that indicate close phylogenetic relationships ontogeny recapitulates phylogeny the developmental history of an organism passes through stages that are shared with the embryonic stages of evolutionary ancestors Comparative embryology shows how different adult structures of many animals have the same embryonic precursors Further closely related animals show a unity of developmental pattern particularly in earlier stages and have more developmental features in common than do more distantly related organisms An example of a developmental homology is the pharyngeal pouches that nearly all vertebrates acquire to some degree during their development but which become very different structures in the adults Fig 22 15 Also see chordate characteristics Fig 34 3 and how these are seen in the larval stage of tunicates Subphylum Urochordata but not in adults vestigial structures vestigial occurring in a rudimentary condition as a result of evolutionary reduction from a more elaborated functional character state in an ancestor The existence of vestigial traits which are no longer of use to the organism show their evolutionary origins e g pelvic bones in whales see Fig 22 18 for transitional fossil and vestigial leg bones in some snakes The fossil record From the late 1700 s a large fossil record started to accumulate changes in characteristics can be seen in fossils Also it was observed that species could go extinct and that new species could appear The study of fossils led to the realization that major changes had occurred in the earth s history Cuvier was among the first to study fossils with such care that he could distinguish fossils in different layers of sedimentary rocks which led him and others to the naming of rock strata the Evolution 3 pg 3 Paleozoic Mesozoic and Cenozoic and their various subdivisions He noted that fossils that are progressively less
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