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Transcript
UNIT IV: EVOLUTION AND BEHAVIOR QUESTION: DO PLANTS AND ANIMALS EVOLVE? Gary Larson PREHISTORIC EARTH Modern (1900+): Earth 4 billion years old; Life began 3.8 billion years ago. Before 1800: Earth few thousand years old; Life created at specific times and doesn’t change Fig. 27.6 1800’s: great intellectual shift in thinking 1 Fossil link between birds and reptiles Archaeopteryx http://tiktaalik.uchicago.edu/meetTik.html Jean-Baptiste de Larmarck 1744-1829 •One of first biologists to believe evolution does occur •Studied invertebrates (fossils) •Inheritance of acquired characteristics (Published 1809) 2 Charles Darwin •HMS Beagle in 1831 •Evidence he found: •Earth is very old •Species change over time •Common ancestry Age 31 Descent with Modification Galapagos finches 3 Descent with Modification •Origin of Species (1859) •Theory of Natural Selection •Individuals vary in their traits (physical characteristics passed on through reproduction) •Members of a population compete for resources •“survival of fittest” •Populations change over time--best adapted survive •Depends on environment (nature) •No genetics; not teleological (nothing predetermined) Darwin vs. Lamarck Theory Of Natural Selection Inheritance Of Acquired Characteristics 4 Inherit the Wind (1960) •“Scopes Monkey Trial” •1920’s Tennessee •John Scopes, Clarence Darrow, William Jennings Bryan •1968 law taken off the books Microevolution--Darwin with genetics •Change in gene frequencies in a population over time •Population: all the members of a single species that occupy a particular area at one time and interbreed and exchange genes •Hardy-Weinberg Principle-allele frequencies will remain constant in a population •If they change-evolution has occurred Peppered Moth-”industrial melanism” Fig. 27.13.b 5 Genetic Drift •A cause of microevolution •Change in allele frequencies due to chance (genotype frequencies don’t follow Punnett Squares!) •Affect smaller populations more Fig. 27.14 Founder Effect •Rare alleles occur at higher frequency in a population isolated from general population •Amish in Lancaster, PA •Polydactylism and Fig. 27.15 dwarfism 6 Co-evolution •Two species exert selective pressures on each other and adapt •Predator-prey relationships •Bumblebees and flowers •Mimicry is extension of co-evolution Monarch butterfly Viceroy butterfly Natural Selection --process by which organisms with the most favorable phenotypes reproduce more and pass on those traits •A driving force behind evolution •Selective pressure by environment •“survival of the fittest” •Acts on phenotype to change allele frequencies •Acts on individuals in a population to eventually change the population as a whole 7 Darwin Modern Evolutionary Theory Requirements for Natural Selection 1. Variation 2. Inheritance 3. Overproduction 4. Differential Reproductive Success Natural Selection--Antibiotic Resistance •Used against bacteria since 1928 (Alexander Fleming--penicillin) •Great genetic variability (mutations) •Most bacteria die; some live (short treatment by Ab) •“maladapted” bacteria reproduce •Repeat exposure to Ab increases resistance •Widespread use and misuse of Ab •MRSA-methicillin resistant staphylococcus aureus •WASH YOUR HANDS!!! 8 Figure 27A Stabilizing Selection •Most common •Average individuals selected (no extemes) •Intermediate phenotype •Lowers frequency of “undesirable alleles” •Human birth weight Fig. 27.16 9 Directional Selection •Extreme phenotype (allele with greater fitness) •Adapting to changing environment •Ab resistance (TB) •Horses, peppered moth, sickle cell Fig. 27.17 Speciation What is a Species? •Similar physical traits •Interbreed (shared gene pool) •Reproductively isolated (no gene flow) •Dogs, cats, corn, dolphins, chimps How does speciation occur? Fig. 27.21 •One species two species •Geographic isolation, then reproductive isolation •Genetic drift, natural selection, etc •Mass extinction (punctuated equilibrium) •Slow and steady (phyletic gradualism) 10 What’s in a name? TAXONOMY--Classification of living organisms •Hierarchical (become more specialized) •Domain, kingdom, phylum, class, order, family, genus, species (mnemonic) •Carolus Linnaeus(1707-1787) •Based on physical characteristics •Binomial nomenclature-- Homo sapiens •Modernized and modified •Domain concept introduced 1990 •Phylogenetics (1960’s)--Darwinian common descent Name that organism! 1. Canis familiaris 2. Canis lupus 3. Escherichia coli 4. Bufo bufo 5. Ginkgo biloba 6. Haliaeetus leucocephalus 7. Ursus horribilis 8. Felis catus 9. Toxicodendron radicans 10. Strigophilus garylarsonii 11 Three Domain Classification System Eukaryotic EUKARYA Prokaryotic BACTERIA ARCHAEA Fig. 27.23 Six Kingdom Classification System 1. Plant: 2. Animal: 3. Fungi: – cell type – # of cells – food? –reproduction 4. Protists: 5. Bacteria: 6. Archebacteria: 12 Phylogenetics --timescale of evolution-latest earliest •Cladogram (evolutionary tree) Traditional 1.mammals 2.turtles 3.snakes/lizards 4.crocs/dinos/birds * * * * * common ancestor junction Cladistic * 1.mammals 2.turtles 3.snakes/lizards 4.crocodiles 5.dinosaurs/birds * * * * 13 The Animal Kingdom 1. 2. 3. 4. 5. 6. Level of Organization Symmetry Body Plan Body Cavity Segmentation Jointed Appendages 5 3&4 2 1 The Green Sheet or How are humans related to other organisms evolution-wise? Multicellular bilateral symmetry complete digestive system endoskeleton warm-blooded/hair placental opposable thumb bipedal still living 14 Plant and Animal Behavior What is Behavior? Plant Behavior Phototropism GROWTH •Light •Day length •Gravity •Touch Negative Gravitropism 15 Animal Behavior • Animals have brains (BIG difference from plants!) •Learning (change in behavior through experience) •Innate (instinct--knowing how to respond without prior exposure to the stimulus)--essential to life and survival •Genetic and environmental influences •Complex interactions between all the body’s systems (hormonal, biochemical, senses, neuromuscular system) Learned Behavior Imprinting • • • • • Baby ducks, geese follow first moving object Instinctive (natural selection--recognition of kin) Narrow window of time for it to occur Hard-wired (genetic; follow anything)+ learning Konrad Lorenz (Nobel Prize Med. Physio. 1973) Classical Conditioning • • • • Associative learning Pavlov’s dogs Learned behavior because of stimulus Advertising imprinting Operant Conditioning • • • B.F.Skinner Rewards; positive reinforcement Stimulus-response gets stronger Operant conditioning 16 Innate Behavior http://www.cals.ncsu.edu/course/ent425/tutorial/Behavior/index.html Reflex • Basic unit of innate behavior • Neural pathway: sensory neuron motor neuron Orientation Behavior: coordinated movements (walking, swimming, flying) in response to an external stimulus • Taxis 1) Dorsal light reaction • Fixed Action Pattern (FAP) 1) Praying Mantis 2) Courtship displays, hunting, nest-building 3) Attack or escaped behaviors 4) Behavioral cascade How is Behavior Adaptive? 1. Feeding Behavior • Black Heron and minnows • Garter snakes 2. Reproductive Behavior • Sexual selection 3. Anti-Predator Behavior • Monarch and Viceroy • Hoary marmot (Alaska) • Meerkat ADAPTIVE BEHAVIOR=CONTINUATION OF THE SPECIES 17
