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Honors Biology Ch. 13 Notes Evolution 13.1 Briefly summarize the history of evolutionary thought. Evolution: The development of new types of organisms from preexisting types over time. Modern definition: a heritable change in the characteristics within a population from one generation to the next. Idea as old as ancient Greeks. Charles Darwin 1830, 22 years old Served on H.M.S. Beagle: “Ship’s Naturalist” Around-the-world voyage lasting five years. Aristocrat so could socialize with Captain. Despised by the Ship’s Surgeon. Sought to provide evidence and mechanism for evolution 13.1 Explain how Darwin’s voyage on the Beagle influenced his thinking. Anatomy: Cuvier(anatomist/archeologist) reassembled fossil bones o Stated: o Past organisms differed greatly from any living species. o Some organisms had become extinct. o Deeper, older strata hold fossils that are increasingly different from living species. o Catastrophism: sudden geologic catastrophes caused extinction of large groups of organisms at certain points in the past. (Geologic change and extinction occurred). Geology: Lyell o Shared some of Cuvier’s ideas o Laws of nature in past same as today: o “Uniformitarianism” o Lyell’s geologic evidence fit with Darwin’s evidence from biology. o Biology Lamarck’s Ideas on Evolution o Died the year Darwin set sail. o Supported change over time. o Spontaneous generation for simple life. o Simple life becomes more complex. o Acquire Traits thru experience or behavior then pass those traits on to offspring. o “Inheritance of Acquired Characteristics” Darwin’s Competition: Scientists don’t argue that evolution occurs, but HOW it happens or it’s mechanism. 1830-1835 Voyage of the Beagle 1830 Alfred Russell Wallace turns 7 years old, grows up to be a biologist and also sails around the world. Both Darwin and Wallace arrive at the same conclusions. 1858 Both present ideas to scientists in London. 1859 Darwin publishes: “On the Origin of Species” 1835 1858 = 23 years Galapagos Video with Alan Alda Mrs. Loyd [email protected] Page 1 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 13.1 Describe the ideas and events that led to Darwin’s 1859 publication of The Origin of Species. http://wps.aw.com/bc_campbell_concepts_6/83/21320/5458063.cw/index.html 13.2 Explain how the work of Thomas Malthus and the process of artificial selection influenced Darwin’s development of the idea of natural selection. Thomas Malthus: Wrote an essay on human populations: More individuals are born than can survive to maturity. Artificial Selection: Selective breeding of animals and crops to attain traits needed. 13.2 Describe Darwin’s observations and inferences in developing the concept of natural selection. 1. More offspring are produced than can survive. 2. This creates a struggle to survive. 3. There is variation within a population. Nature selects which will live and which will die. 4. Unequal survival rate causes favorable traits to accumulate, “survival of the fitness” 13.2 Explain why individuals cannot evolve and why evolution does not lead to perfectly adapted organisms. Individuals do not evolve: They can only pass on traits to fertile offspring with varying degrees of success: “fitness” Evolution does not lead to perfectly adapted organisms: Not goal oriented NS results from environmental factors that vary from place to place and time to time “fitness” will vary Adaptations are compromises ex. blue-footed boobie’s feet o work great in water o clumsy on land Evol: Laryngeal Nerve in Giraffes 13.3 Describe two examples of natural selection known to occur in nature. Notes three key points about how natural selection works. Thousands of experiments document evolution in action. Example #1: Ground Finches’ beaks 20 year study changes in beak size eat small seeds in dry years, fewer seeds, birds eat more large seeds birds with larger, stronger beaks have the advantage average beak size in population increases. during wet years, opposite happens. Example #2: Pesticide resistance Three Key points: Simulation of Natural Selection: http://biologyinmotion.com/evol/index.html 1. N.S. is editing not creative Mrs. Loyd [email protected] Page 2 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 2. Contingent on time and space: N.S. favors characteristics that fit current, local environment. 3. Significant evolutionary change can occur in a short time. Simulation of Natural Selection: http://biologyinmotion.com/evol/index.html 13.4 Explain how fossils form, noting examples of each process. Fig. 13.4 A-F A. Skull of H. erectus: actual remains B. Ammonite casts: minerals replace organic molecules, harden, refilled, hardens, turned out of a mold. 1. Petrified trees. C. Dinosaur tracks: trace fossils: footprints, burrows, other traces that represent behavior. D. Fossilized organic matter of a leaf: actual remains preserved by omitting bacteria and fungi from growing. E. Insect in amber: fossilized tree sap (actual) F. Ice Man (otzi): frozen (actual) G. La Brea tar pits (actual) H. Peat bogs: Tolund Man (actual) 13.4 Explain how the fossil record provides some of the strongest evidence of evolution. The Fossil Record: the sequence in which fossils appear within layers of sedimentary rocks. Strata: layers Superposition: oldest is deepest, youngest is shallow Fossilization is a rare event o hard parts fossilize best and most often o soft parts (skin, feathers) fossilize least often. Speciation requires little time (geologic time scale) Fossil record is incomplete as one should expect. Bacteria is oldest fossilized life form Transitional fossils: fig. 13.4H o Terrestrial mammals to whales o Vestigial pelvis o Share ankle bone design unique to: pigs, hippos, cows, camels, and deer. Mrs. Loyd [email protected] Page 3 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com Evidence of Evolution: Fossils (“Comparing Primate Fossils” or “Skulls Lab” Activity) Biogeography: Wallace established biogeography (the study of the past and present geographical distribution of organisms) by studying the distribution of animal species around the world. Comparative anatomy o homologous features: Blast Animation “Homologous Structures” o analogous features o embryonic development: gill slits tail “Ontogeny recapitulates Phylogeny o vestigial features Boelens Python Vestigial Pelvis Molecular biology AA sequence in proteins (“Biochemical Evidence” activity) Chromosomes (“Comparing Primate Fossils” Activity) Important molecules: Cytochrome c highly conserved. Mrs. Loyd [email protected] Page 4 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 13.6 Explain how evolutionary trees are constructed and used to represent ancestral relationships. Darwin was the first to view the history of life as a tree, with multiple branchings from a common ancestral trunk to the descendant species at the tips of the twigs. Fig. 13.6 Evolutionary Tree http://163.16.28.248/bio/activelearner/17/ch17summary.html Homologous structures, both anatomical and molecular, can be used to determine the branching sequence of such a tree. Genetic Code: (A, T, C, G) is a homology shared by all species because they date to the deep ancestral past. Characteristics that evolved more recently are shared only within smaller groups of organisms. (Tetrapods all share basic limb bone structure but their ancestors do not. THE EVOLUTION OF POPULATIONS 13.7 Define the gene pool, a population, and microevolution. Gene Pool: The total collection of genes in a population at any one time. Used to study evolution at the population level. Population: A group of individuals of the same species living in the same place at the same time. Microevolution: Evolution on its smallest scale, occurring in the gene pool of a population. When the relative frequencies of alleles in a population change over a number of generations. 13.8 Explain how mutation and sexual recombination produce genetic variation. Mutation: A chance event, not a mechanism (controlled by genes.) New alleles originate by a change (mutation) in the nucleotide sequence of DNA. Ultimate source of genetic variation Most mutations occur in body cells and are not passed on. Only mutations in gametes are passed on. Chromosomal mutations: o that delete, disrupt or rearrange many gene loci are usually harmful. o Duplication of part of a chromosome is an important source of genetic variation. Extra genes that can be mutated. Olfactory receptor genes in mammals allows for greater range of scent detection. Mice = 1,300 receptors Humans = 1,000 receptors Sexual Recombination Fresh assortments of existing alleles: Crossing over during Prophase I. Independent orientation of homologous chromosomes Metaphase I of meiosis Segregation of alleles Random Fertilization Review Questions: 1. What is the ultimate source of genetic variation? 2. What is the source of most genetic variation in a population that reproduces sexually? Mrs. Loyd [email protected] Page 5 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 1. mutation 2. Unique combinations of alleles resulting from sexual reproduction. 13.8 Explain why prokaryotes can evolve more quickly than eukaryotes. Prokaryotic mutations can multiply rapidly due to rapid reproduction rate. o Bacteria are haploid, one gene per character, a new allele can have immediate effect. Mutation Rate: o Animals and plants average 1/100,000 genes per generation. o Considered a low mutation rate. o Long time spans between generations, o diploid genomes prevent most mutations from significantly affecting genetic variation in plants and animals from generation to generation. 13.9, 10 EXTRA CREDIT: Hardy-Weinberg 3 pts. max. Do: Objectives 13.9, 10 and Process of Science: “How Can Frequency of Alleles Be Calculated?” (13.9) See: “Student Media” on Objective Sheet. DUE: Submit online for credit before test day. MECHANISMS OF MICROEVOLUTION 13.11 Define genetic drift and gene flow. Explain how the bottleneck effect and the founder effect influence microevolution. Mech.of Evol. 7:40min. Genetic drift: A change in the gene pool of a population due to chance. The smaller the population, the greater the effect. Alleles may be lost to the population due to chance This reduces variation by such losses. Examples are: o Bottleneck Effect o Founder Effect Bottleneck Effect: Catastrophe may kill indiscriminately and leave few survivors. Reduced gene pool variation affects population Less variation reduces population’s fitness Founder effect: When a few individuals colonize as isolated island or other new habitat. The smaller the group, the less likely the genetic makeup will represent larger population they left. Genetic difference between large pop. and founder pop. is founder effect. Gene Flow: Allele frequencies can change as a result of fertile individuals move into or out of a population. Gene flow reduces differences between populations. Compare to similarities in a closed society like the Amish. FOUNDER EFFECT example 1814, 15 people founded British colony, Tristan da Cunha on island in Atlantic. One of the 15 was a het for retinitis pigmentosa. In 1960, of the 240 descendants, 4 had RP, 9 were hets. Frequency 10x higher than parent population. 13.11 Explain how genetic bottlenecks threaten the survival of certain species. Ice age: Human population estimates 600 breeding individuals at one time in S. Africa. Genetic variation between individual humans about 30% less than between individual chimpanzees. Florida panther African cheetah Illinois greater prairie chicken reduced by agriculture and development from millions in 19th C. to 50 individuals in 1993. Flocks from neighboring states added into Illinois flock. Regained hatching success from 50% to 90% due to added alleles. Mrs. Loyd [email protected] Page 6 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 13.12 Explain why natural selection is the only mechanism that leads to adaptive evolution. Chance Events: Genetic drift (bottleneck, founder effects) gene flow mutation Chance + sorting: o natural selection chance: random collection of genetic variation sorting: some alleles are favored over others. sorting makes in adaptive improves the match between organisms and their environment. environments change “fitness” is a moving target adaptive evolution dynamic process 13.13 Distinguish between and describe an example of: stabilizing selection: most common type favors intermediate phenotypes stable environment conditions reduce phenotypic variation example: human infant weight averages 6.5-9 pounds, extremes have higher infant mortality. directional selection: shifts the overall makeup of the popul. by selecting against individuals at one of the phenotypic extremes.. example: insects exposed to pesticide disruptive selection: environmental conditions are varied and favors individuals at both extremes. leads to two or more contrasting phenotypes 13.14 Define and compare intrasexual selection and intersexual selection. Intrasexual selection or within the sex usually between males “Winner takes all” Male wins territorial rights to a group of females. Usually agonistic or ritualized Example: lions, elk, mountain sheep Intersexual selection or mate choice between males and females Females choose male Males display adornments o plumage o courtship dance o song o “Choose Me!” o studies show it relates to overall male health Mrs. Loyd [email protected] Page 7 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com 13.15 Explain how antibiotic resistance has evolved. Discovery Channel video clip http://wps.aw.com/bc_campbell_concepts_6/83/21320/545806 3.cw/index.html 13.16 Explain how genetic variation is maintained in populations. Diploidy: having two sets of chromosomes helps to prevent populations from becoming genetically uniform. Recessive alleles hide from selection forces as Hets Maintains presence of recessive alleles in gene pool Balancing Selection: When natural selection maintains stable frequencies of two or more phenotypic forms in a popul. heterozygote advantage: o homozygotes are selected against o NN = susceptible to malaria/ nn = susceptible to sickle-cell frequency-dependant selection: most common phenotype selected against o scale-eating fish in Lake Tanganika, Africa o attack other fish from behind to steal scales o right-mouthed/left-mouthed o easier to defend against most common attacker o those numbers go down from lack of food o less common #’s go up from greater food 13.16 Explain what is meant by neutral variation. Mutations that have no effect, + or -, on the individual Mutation occurs in non-coding region of DNA Occurs but doesn’t change protein significantly 13.17 Give four reasons why natural selection cannot produce perfection. 1. Selection can act only on existing variations a. can use only phenotypes available b. may not be ideal trait for environment c. advantageous alleles do not arise on demand d. extinction happens 2. Evolution is limited by historical constraints. a. co-opts existing structures and adapts them to new situations b. Example: environmental changes favor flight; wings would be best but nature must use the parts available. Bats and birds did not evolve a new set of appendages, they changed what they already had. 3. Adaptations are often compromises a. Each organism must do many different tasks but.. b. …adaptations may be better suited for some tasks than others c. Example: blue-footed booby uses webbed feet to swim after prey well, but they are clumsy on land. 4. Chance, natural selection, and the environment interact. a. Chance plays a bigger role than once thought b. Example: a storm blows insects out to sea. A few land on an island, many perish. The few that survived may not be the individuals that would be best adapted to the new environment. Question: Humans owe much of their physical versatility and athleticism to their flexible limbs and joints. But we are prone to sprains, torn ligaments, and dislocations. a. Which one of the four reasons given for why natural selection cannot produce perfect organisms best explains this? b. Explain how your chosen reason applies specifically to humans. Mrs. Loyd [email protected] Page 8 of 8 http://loydbiology.weebly.com 5/25/2017 http://www.mybiology.com