* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Chs. 14-16: Evolution
Survey
Document related concepts
Hologenome theory of evolution wikipedia , lookup
Natural selection wikipedia , lookup
Genetics and the Origin of Species wikipedia , lookup
Saltation (biology) wikipedia , lookup
Evolving digital ecological networks wikipedia , lookup
Precambrian body plans wikipedia , lookup
The Expression of the Emotions in Man and Animals wikipedia , lookup
Koinophilia wikipedia , lookup
Transitional fossil wikipedia , lookup
The Descent of Man, and Selection in Relation to Sex wikipedia , lookup
Transcript
Chapters 22-25 Evolution Evolution The definition of Evolution is: change over time Biological Evolution is: genetic change in population over time process by which modern organisms have descended from ancient organisms (slow change over long time) • Even relatively quick evolution takes hundreds of thousands of years History of Evolutionary Theories Plato (427-347 B.C.) 2 worlds – 1 perfect, 1 imperfect. No change in organisms Aristotle (384-322 B.C.) Organisms placed on “ladder of complexity / perfection” (scala naturae) No change Judeo-Christian culture tried to explain the Creator’s plan as observable, natural phenomena – Natural Theology History of Evolutionary Theories Carolus Linnaeus (1707-1832) Designed modern taxonomic system (binomial nomenclature) From this system, we can (he didn’t) now infer evolutionary relationships between different groups Geologists: Georges Cuvier James Hutton Charles Lyell History of Evolutionary Theories Georges Cuvier (1769-1832) helped develop Paleontology – study of fossils Discovery of fossils (extinct species, similarities to modern species) put some doubt into Earth’s age and the origin of species Cuvier explained differences in strata with “catastrophism” – floods, droughts, volcanoes, etc. changed local areas drastically over short periods of time • Organisms did not change, just migrate History of Evolutionary Theories James Hutton (1726-1797) proposed that rocks, mountains, and valleys have been changed by water, wind, temperature, volcanoes, and other natural forces He described the slow processes that shape Earth as “gradualism” History of Evolutionary Theories Charles Lyell (1797-1875) – agreed with Hutton and said that scientists must always explain past events in terms of observable, PRESENT events and processes (“uniformitarianism” – what happens today happened yesterday) They theorized Earth was much older than a few thousand (6,000) years, which didn’t set well in the traditional timeframe of Creationism Age of the Earth We now know Earth is approximately 4.5 billion years old Darwin used the work of Hutton and Lyell as a basis for his theories of slow change over time. Darwin’s work was a biological duplicate of Hutton and Lyell’s works in geology. Geologists study Earth’s rocks Fossils are preserved remains of ancient organisms As fossils are found that don’t resemble organisms today, evidence increases that Earth has changed and that organisms have changed with it Biologists and geologists date Earth’s past with the help of rocks Geological Time Scale RELATIVE DATING Technique used to determine age of fossils relative to other fossils in different strata This technique is VERY approximate Geological Time Scale ABSOLUTE (RADIOMETRIC) DATING Using radioactive elements in rock that decay at a steady rate to determine age Decay measured in terms of HALFLIFE • Half-life – time required for half the radioactive atoms in a sample to decay Radioactive Decay During radioactive decay, the atoms of one element break down to form something else Lose a proton 6 protons 4 neutrons 5 protons 4 neutrons Rocks contain radioactive elements, each having a different half-life EXAMPLES: Uranium-238 Lead-206 HL = 4.5 B yrs Potassium-40 Argon-40 HL = 1.3 B yrs Carbon-14 Nitrogen-14 HL = 5770 yrs Scientists often date rocks using Potassium-40, which decays to form the stable element Argon-40 It has a half life of 1.3 billion years This is used to date the oldest rocks on earth K-40 Formed K-40 Ar-40 Ar-40 1.3 B yrs 2.6 B yrs Uranium and Potassium are useful for dating rocks Carbon-14 is useful for dating things that were once alive such as wood, natural fiber, or cloth C-14 is in the atmosphere; living things take it in their cells. After the organism dies, it doesn’t take in any more C-14. We can then compare the amounts of C-14 to N-14, knowing its half-life, to determine the age of the sample Fossil Evidence Found in Sedimentary rock: layers of sand, silt, and clay in streams, lakes, rivers, and seas form rock that may have trapped living organisms Fossil records – Show change over time. Some time frames are missing, but will show change of climate and geography. Ex: Shark teeth in Utah How can this be? Jean Baptiste de Lamarck (1744-1829) He also recognized that organisms were adapted to their environments and that they change He relied on three ideas: 1. A desire to change (innate drive for perfection) 2. Use and disuse (Giraffe’s necks and vestigial organs) 3. Inheritance of acquired characteristics Darwin’s Dilemma Set sail around the world in 1831 on HMS Beagle on a 5 year voyage He had prior knowledge of geology (Lyell was a good friend) and agriculture that helped influence the development of his theory Anchored all along the way and took samples from each place Darwin’s Dilemma He collected and studied beetles from Brazil, birds from Chile, and iguanas, tortoises, and finches from the Galápagos Islands He noticed similarities between mainland (Ecuador) and Galapagos finches Later, he noticed differences in beak size among finches from different islands in the Galapagos Darwin’s Dilemma Thomas Malthus – wrote paper on population growth in Great Britain Population grows exponentially Limiting factors on growth (carrying capacity) • Food • Area • Resources Darwin’s Dilemma Darwin applied Malthus’, Hutton’s, and Lyell’s work to species’ ability to change, and called the mechanism Natural Selection Nat.Sel.: Process by which organisms with favorable variations survive and produce more offspring than less welladapted organisms He was sure Nat.Sel. was true, but he feared public ridicule. So, he kept his ideas to himself Darwin’s Dilemma Alfred Russel Wallace (1823-1913), working independently, came to the same conclusions as Darwin He sent a manuscript to Darwin, basically for proofreading “I never saw a more striking coincidence… so all my originality, whatever it may amount to, will be smashed.” – Charles Darwin Letter to Charles Lyell, June 18, 1858 Darwin quickly abridged and published his work “On the Origin of Species” Darwin’s Natural Selection Ernst Mayr, an evolutionary biologist, has dissected the logic of Darwin’s theory into three inferences based on five observations (Pg. 435) Observations: Tremendous fecundity Stable populations sizes Limited environmental resources Variation among individuals Heritability of some of this variation. Darwin’s Natural Selection Observation #1: All species have such great potential fertility that their population size would increase exponentially if all individuals that are born reproduced successfully. Darwin’s Natural Selection Observation #2: Populations tend to remain stable in size,except for seasonal fluctuations. Observation #3: Environmental resources are limited. Darwin’s Natural Selection Inference #1: Production of more individuals than the environment can support leads to a struggle for existence among the individuals of a population, with only a fraction of the offspring surviving each generation. Darwin’s Natural Selection Observation #4: Individuals of a population vary extensively in their characteristics; no two individuals are exactly alike. Observation #5: Much of this variation is heritable. Darwin’s Natural Selection Inference #2: Survival in the struggle for existence is not random, but depends in part on the hereditary constitution of the individuals. Those individuals whose inherited characteristics best fit them to their environment are likely to leave more offspring than less fit individuals. Darwin’s Natural Selection Inference #3: This unequal ability of individuals to survive and reproduce will lead to a gradual change in a population, with favorable characteristics accumulating over the generations. Evidence in Living Organisms Comparative embryology: All vertebrate embryos look similar to one another in early development, with the development of a tail and gill arches • Ernst Haeckel made early drawings – later exposed as frauds. • Gave fuel to anti-evolutionists Evidence in Living Organisms Comparative embryology: These anatomical similarities indicate similar genetics are at work Become more dissimilar as they grow • Cell specialization and differentiation Common ancestor? Evidence in Living Organisms Evidence in Living Organisms Comparative anatomy: Homologous Structures Analogous Structures Vestigial Organs Evidence in Living Organisms Homologous Structures – structures that are similar in anatomy, but may serve very different functions Ex: cat, whale, and human forearm Homologous Structures Flying Swimming Running Grasping Evidence in Living Organisms Analogous Structures – structures that serve similar functions, but have evolved independently of each other Not homologous; analogous Not homologous; not analogous Homologous; not analogous Homologous; analogous Evidence in Living Organisms. Vestigial organs – organs that have little or no purpose in the organism; may become smaller or even disappear Ex: Tailbone or appendix in humans Ex: Tiny leg bones in snakes (boas and pythons) thought to come from 4 legged ancestor Evidence in Living Organisms Comparative biochemistry and molecular biology: All cells have DNA, RNA, ribosomes, the same 20 amino acids and use ATP to do work Similarities in biochemistry indicate relationship Evidence in Living Organisms Cytochrome c is a highly conserved respiratory protein containing 104 amino acids in humans Evidence in Living Organisms Amino acid differences of hemoglobin between species