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Transcript of 1 History of Life Chapter 19 536-568 Evolution Notes 2010.
1
History of Life
Chapter 19
536-568
Evolution Notes 2010
KEY Terms Chap 16, 17, and 19
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Biogenesis
• All living things come from other living things, seems reasonable to us today. Before the 17 century it was widely thought that living things could also arise from nonliving things in a process called spontaneous generation. This seemed to explain why maggots appeared on rotting meat and why fish appeared in ponds that were dry the previous season
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Redi’s Experiment
• 1626-1697 Italian scientist Francesco Redi
• Studied developmental forms of flies
• Did flies generate spontaneously from rotting meat?
• Experiment control group rotting meat left open maggots, experimental group rotting meat sealed no maggots
• Flies come from eggs laid by other flies
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Redi’s Experiment
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Spallanzani Experiment• 1729-1799 Italian scientist Lazzaro
Spallanzani• Microorganisms formed not from air but
from other microorganisms• Boiled broth, control open becomes
cloudy, experimental group sealed remains clear
• Those that believed in spontaneous gen found flaws in his experiment, continued to believe in SG
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Spallanzani Experiment
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Pasteur’s Experiment
• 1800s Paris Academy of Science offered a prize to anyone who could clear up the issue once and for all
• Louis Pasture (1822-1895) won• Pasture used similar format of Spallanzani
except he used a curve neck flask no growth for one year till the curve was broken and allowed for microorganisms from the air to enter
No longer believed in spontaneous generations but biogenesis (to live to be born)
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Pasteur Experiment
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Theories of life's origin
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Earth’s History• If spontaneous generation does not
happen on Earth today, then the question remains: How did cell-based life arise in the first place? Key to answering this question lies in scientific hypotheses that conditions on early Earth were very different from present conditions. Scientists continue to form and test these hypotheses by modeling conditions and process that could have given rise to the first cellular life form.
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Formation of Earth
• Our solar system was a swirling mass of gas and dust
• Pulled together by gravity and formed the sun
• Planets formed through repeated collision of this space debris
Earths age• More than 4 billion years ago• Studying layers of sedimentary rockEvolution Notes 2010
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Radiometric Dating
• Use of isotopes (change in # of neutrons)• Mass number is the # of protons and
neutrons• Radioactive decay- isotopes are unstable
and release particles and energy• Radioactive isotopes occur naturally in all
matter• Half-life- time it takes to decay, measure
the amountEvolution Notes 2010
Radiometric Dating
– The half-life of potassium-40 is 1.26 billion years.
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Radiometric Dating • Carbon-14 is a radioactive form of carbon naturally found in
the atmosphere. It is taken up by living organisms along with “regular” carbon, so it can be used to date material that was once alive, such as bones or wood.
• After an organism dies, carbon-14 in its body begins to decay to nitrogen-14, which escapes into the air.
• Researchers compare the amount of carbon-14 in a fossil to the amount of carbon-14 in the atmosphere, which is generally constant. This comparison reveals how long ago the organism lived.
• Carbon-14 has a half-life of only about 5730 years, so it’s only useful for dating fossils no older than about 60,000 years.
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First Organic CPDS
• Soviet Alexander I. Oparin (1894-1980) and American John B.S. Haldane (1892-1964)
• Believed that earth early atmosphere contained ammonia, hydrogen gas, wand water vapor, carbon and hydrogen cpds
• At high temperatures gases would formed simple organic cpds such as amino acids
• Earth cooled water vapors condensed and created water systems
• Lighting fueled energy creating macromolecules essential to life (proteins)
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Synthesis of organic cpds
• 1953 Stanley Miller and Harold Urey set up and experiment to test the hypothesis
• Used gases that were assumed present in the earths atmosphere, using an electrical spark to simulate the lighting the experiment produced variety of organic compounds including amino acids
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http://www.ucsd.tv/miller-urey/http://www.wwnorton.com/college/chemistry/chemconnections/Origins/pages/spark.html
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Beyond earth
• Some scientists believe that organic compounds could have been carried to Earth by debris from space
• Studied 1970 meteorite
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From molecules to cell-like structures
• Fox (1912-1998) studied cell structures• Some from spontaneously in the lab from
solution of simple organic chemicals• Microspheres- spherical in shape and
composed of many protein• Coacervates-collection of droplets that
are composed of molecules of different types
Do not have all the properties of life!!Evolution Notes 2010
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Origin of Heredity
• DNA RNA protein
• Believed that RNA molecules behave like proteins and catalyze chemical reactions
• Chech’s found that ribozymes could act as catalyst for their own replication support the hypothesis that life could have started with self-replicating molecules of RNA
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First cells
• Little or no oxygen existed on early earth
• Oldest fossils that are size and shape of some prokaryotes
• Developed in environments filled with organic molecules
• Believed they were anaerobic, heterotrophic prokaryotes
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chemosynthesis
• Archaea- unicellular organisms, live in extreme harsh environments
• Tend to be autotrophic
• Obtain energy by chemosynthesis, oxidation of various inorganic substances (sulfur)
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Photosynthesis and aerobic respiration
• 3 billion yr ago
• Oldest know fossils similar to cyanobacteria (unicellular prok, photosynthesis), stromatolites (3.5 billion years old)
• Creation of ozone
• Endosymbiosis (mitochondria, chloroplasts)
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The first Eukaryotes: Endosymbiosis (together, way of life)
(mitochondria, chloroplasts)
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Theory of Evolution
Chapter 16
448-474
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Review
• What is Genotype and phenotype
• Don’t forget that an organisms phenotype depends on an organisms genotype
• Can you explain how DNA in an organism determines the structure and function of protein that a cell produces
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Objectives
• Define the biological process of evolution• Summarize the history of scientific ideas
about evolution• Described Charles Darwin’s contributions
to scientific thinking about evolution• Analyze the reasoning in Darwin's theory
of evolution of by natural selection• Relate the concepts of adaptation and
fitness to the theory of natural selection.
What was Charles Darwin’s contribution to science?
• Darwin developed a scientific theory of biological evolution that explains how modern organisms evolved over long periods of time through descent from common ancestors.
• Charles Darwin was born in England on February 12, 1809. He grew up at a time when the scientific view of the natural world was shifting dramatically.
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History of Evolutionary Thought
• In the 1830s, the young English naturalist Charles Darwin took a trip around the world on a shop called HSM Beagle.(5 years) He was fascinated by diverse and unique organisms, such as the giant tortoises of the Galapagos Islands. Darwin went ton to form one of the most important theories in biology.
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Observations Aboard the Beagle
What three patterns of biodiversity did Darwin note?
– Darwin noticed that some fossils of extinct animals were similar to living species.
– As he traveled, Darwin noticed three distinctive patterns of biological diversity: (1) Species vary globally, (2) species vary locally, and (3) species vary over time.
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The Idea of Evolution
• Animals varied from island to island• Organisms changed over time• Development of new types of organisms from
preexisting types of organisms over time (Evolution)
• Heritable change in the characteristics within a population from one generation to the next
• Theory is something that takes observations, inferences, and tested hypotheses over time
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Ideas of Darwin’s Time
• 18 century most scientists thought that all species were permanent and unchanging
• Once believed the earth was only thousands – not billion years old
• Evidence was emerging that organisms were changing over time
• http://www.youtube.com/watch?v=wl68aaiHdGo&feature=related• http://www.youtube.com/watch?v=cbhvfDA5Vjs&feature=related
• http://www.youtube.com/watch?v=1NAKg46s1DA&feature=related
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Ideas about Geology
• Strata – rock layers, being studied• Found fossils in the strata• Cuvier (1769-1832) spent years reconstructing
organisms from fossil bones• Found sudden changes from rocks to rocks• Catastrophism- sudden geologic catastrophes
caused the extinction of large group of organism in the past (geologic change extinction)
• Lyell- uniformitarianism, geologic process that have changed the shape of Earth’s surface in the past continue to work in the same ways
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Lamarck’s Ideas on Evolution
• French biologist (1744-1829)
• Organisms change over time
• Could acquire traits during the life time and pass it on to the offspring inheritance of acquired characteristics
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Darwin’s Ideas
• The Origin of Species by Means of Natural Selection• Descent with Modifications was used to describe the
process of evolution• Must have descended by reproduction from preexisting
species and that species must be able to change over time
• Was the first to argue that all came from first few species• http://www.aboutdarwin.com/• http://www.pbs.org/wgbh/evolution/darwin/origin/
index.html
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Darwin Finches
Evolution by Natural Selection
Under what conditions does natural selection occur?
– Natural selection occurs in any situation in which more individuals are born than can survive (the struggle for existence), there is natural heritable variation (variation and adaptation), and there is variable fitness among individuals (survival of the fittest).
– , Darwin realized that if more individuals are produced than can survive, members of a population must compete to obtain food, living space, and other limited necessities of life.
– Darwin described this as the struggle for existence
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Natural Selection
mechanisms for descent with modifications4 main parts1. Overproduction2. Genetic variation3. Struggle to survive4. Differential reproduction
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1. Overproduction
• More offspring can be produced than can survive to maturity
• Humans: war, disease, lack of food
• Environment limits the populations of all organisms by causing death or by limiting successful births
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Genetic variation and survival
2.GV• Population individuals have different traits• Some can be inherited• Occasionally new traits may appear3.Struggle to survive• Compete among population “struggle for
existence”, can improve or reduce chance• Adaptation- makes survival a success
Variation and Adaptation – Darwin knew that individuals have natural variations
among their heritable traits, and he hypothesized that some of those variants are better suited to life in their environment than others.
– Any heritable characteristic that increases an organism’s ability to survive and reproduce in its environment is called an adaptation.
– Adaptations can involve body parts or structures, like a tiger’s claws; colors, like those that make camouflage or mimicry possible; or physiological functions, like the way a plant carries out photosynthesis
– The scarlet king snake exhibits mimicry—an adaptation in which an organism copies, or mimics, a more dangerous organism. Although the scarlet king snake is harmless, it looks like the poisonous eastern coral snake, so predators avoid it, too.
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4.Differential reproduction
• Organisms with the best adaptations are most likely to survive and reproduce through inheritance the adaptations become more frequent in the populations
• Over time the populations begin to change• Natural selection nature changes the
species by selecting traits• Survival of the fittest- individuals
hereditary
Survival of the Fittest • According to Darwin, differences in adaptations affect an individual’s
fitness.
• Fitness describes how well an organism can survive and reproduce in its environment.
• Individuals with adaptations that are well-suited to their environment can survive and reproduce and are said to have high fitness.
• Individuals with characteristics that are not well-suited to their environment either die without reproducing or leave few offspring and are said to have low fitness.
• This difference in rates of survival and reproduction is called survival of the fittest. In evolutionary terms, survival means reproducing and passing adaptations on to the next generation.
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Natural Selection
Natural Selection
– This hypothetical population of grasshoppers changes over time as a result of natural selection.
– Grasshoppers can lay more than 200 eggs at a time, but only a small fraction of these offspring survive to reproduce.
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Natural Selection
– Certain variations, called adaptations, increase an individual’s chances of surviving and reproducing.
– In this population of grasshoppers, heritable variation includes yellow and green body color.
– Green color is an adaptation: The green grasshoppers blend into their environment and so are less visible to predators.
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Natural Selection
– Because their color serves as a camouflage adaptation, green grasshoppers have higher fitness and so survive and reproduce more often than yellow grasshoppers do.
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Natural Selection
– Green grasshoppers become more common than yellow grasshoppers in this population over time because more grasshoppers are born than can survive, individuals vary in color and color is a heritable trait, and green grasshoppers have higher fitness in this particular environment
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Natural Selection
– Natural selection does not make organisms “better.” Adaptations don’t have to be perfect—just good enough to enable an organism to pass its genes to the next generation.
– Natural selection also doesn’t move in a fixed direction. There is no one, perfect way of doing something. Natural selection is simply a process that enables organisms to survive and reproduce in a local environment.
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Common Descent
– Darwin based his explanation for the diversity of life on the idea that species change over time.
– For evidence of descent with modification over long periods of time, Darwin pointed to the fossil record.
– This page from one of Darwin’s notebooks shows the first evolutionary tree ever drawn. This sketch shows Darwin’s explanation for how descent with modification could produce the diversity of life.
– A single “tree of life” links all living things.
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Objectives• Relate several inferences about the history of
life that are supported by evidence from fossils and rocks.
• Explain how biogeography provides evidence that species evolve adaptations to their environments.
• Explain how the anatomy and development of organisms provide evidence of shared ancestry.
• Compare the use of biological molecules with other types analysis of evolutionary relationships.
• Describe the ongoing development of evolutionary theory
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Evidence of Evolution
• Many kinds of evidence give insight into the history of life n Earth and the patterns of change among organisms. Fossils that are different from organism living today are strong evidence that organisms on Earth can change over time. But evidence of evolution is also found inside living organisms.
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1. Fossil Record is the remains of traces of an organism that died
long ago• Superposition- if the rock strata at a location
have not been disturbed, the lowest stratum was formed before the strata above it, geologic time scale
• Relative age- age compared to that of other fossils
• Absolute age- use radiometric dating, time since formation
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Distribution of Fossils
Inferences
1. that diff organism live at diff times
2. Today's organisms are diff from past
3. Adjacent layers are similar than ones below or above
4. Where they lived, existed, adapted
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Geologic Time Scale– Geologists and
paleontologists have built a time line of Earth’s history called the geologic time scale.
– The basic divisions of the geologic time scale are eons, eras, and periods.
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Transitional species• Features that are intermediate between
those of hypothesized ancestors and later descendant species
• Once believed whales had legs
Recent Fossil Finds
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Recent Fossil Finds
The limb structure of Ambulocetus (“walking whale”) suggests that these animals could both swim in shallow water and walk on land.
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Recent Fossil Finds
The hind limbs of Rodhocetus were short and probably not able to bear much weight. Paleontologists think that these animals spent most of their time in the water.
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Recent Fossil Finds
– Basilosarus had a streamlined body and reduced hind limbs. These skeletal features suggest that Basilosarus spent its entire life swimming in the ocean.
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Recent Fossil Finds
– Modern whales retain reduced pelvic bones and, in some cases, upper and lower limb bones. However, these structures no longer play a role in locomotion.
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Recent Fossil Finds
– Other recent fossil finds connect the dots between dinosaurs and birds, and between fish and four-legged land animals.
– All historical records are incomplete, and the history of life is no exception. The evidence we do have, however, tells an unmistakable story of evolutionary change.
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2.Biogeography
• Study of the locations of organisms around the world
• Organisms seemed closely related yet were adapted to different environments in nearby regions
• Yet some organisms seemed unrelated and had similar adaptations
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3.Anatomy and 4.Embryology
• Anatomy- the study of the body structure of an organism
• Embryology- the study of how organism develop
• Homologous structures- similar structures with common ancestors diff functions
• Analogous structures- related functions not derived from the same ancestral structure
• Vestigial structures- no longer have function
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Vestigial structures
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5.Biological Molecules (DNA)• The greater the number of similarities between
any given species, the more closely the species are related trough a common ancestor
• New information constant debate• Modern synthesis of evolutionary theory• Many aspects are still poorly understood or
unexplained• We use phylogeny to so relationships
(classification)
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Objectives
• Describe how convergent evolution can result among different species.
• Explain how divergent evolution can lead to species diversity
• Compare artificial selection and natural selection
• Explain how organisms can undergo convolution.
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Evolution in Action• Evolution is a continuous process.
Evolution is going on today in populations of living species and can be observed, recorded, and tested. Patterns of evolution repeat in different times and places. Interactions between species , including humans, affect their ongoing evolution.
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Types of evolution• Convergent- different species evolve similar
traits• Divergent- descendants of a single ancestor
diversify into species that each fit diff parts of the environment
• Adaptive radiation- new population in a new environment will undergo divergent evolution until the population fills many parts of the environment
• Artificial selection- pick traits• Co evolution- two or more species have
evolved adaptation to each other’s influence
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Chapter 17 Evolution of Populations
For extra help go to:
http://bioactive.mrkirkscience.com/submenus/part4index.html
p. 480-504
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Objectives
• Identify traits that vary in populations and that may be studied.
• Explain the importance of the bell curve to population genetics
• Compare three causes of genetic variation in a population
• Explain Hardy-Weinberg genetics equilibrium
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Genetic Equilibrium
• By the time of Darwin’s death, in 1882, the idea of evolution by natural selection had gained wide acceptance among scientists. Within the next century, an increasing scientific understanding of genetics became strongly linked with theories of evolution and natural selection.
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Variation of Traits within a population
• Population- consists of a group of individuals of the same species that routinely interbreed, smallest unit in which evolution occurs
• Population genetics- study of evolution from a genetic point of view
• Microevolution- change in the collective genetic material of a population
• Populations can vary in traits (bell curve)
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Causes of Variation
1. Environmental factors (food)
2. Heredity
3. Range of phenotypic possibilities (body sizes)
4. Mutation- random change in genes
5. Recombination- reshuffling of genes
6. Random paring of gametes
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Hardy-Weinberg EquilibriumGene Pool- Used to describe the total
genetic information available in a population
Based on a set of assumptions about an ideal hypothetical population that is not evolving (theoretical state)
1. No net mutations occur
2. Individuals neither leave or enter
3. Populations are large
4. Individuals mate randomly
5. Selection does not occurEvolution Notes 2010
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Objectives
• List five conditions under which evolution takes place
• Explain how migration can affect the genetics of populations
• Explain how genetic drift can affect population of different sizes
• Contrast the effects of stabilizing selection, directional selection, disruptive selection on populations over time
• Identify examples of nonrandom mating
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Disruption of Genetic Equilibrium
• Evolution is the change in a population’s genetic material over generations, a change of the population’s alleles frequency or genotype frequency. Any exception to the fiver conditions necessary for Hardy-Weinberg equilibrium can result in evolution.
• Web 13d
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mutation
• Very low rates under normal conditions
• Environmental factors can influence
• Change genetic equilibrium- new alleles
• Natural selection works slowly
• (first rule to HW)
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Gene Flow
• Second rule to HW- no one leaves/enters
• Where they go so does the traits
• Immigration- movement into a population
• Emigrating- movement out of a population
• Gene flow- process of genes moving from one population to another, migration of individuals or dispersal of seeds or spores
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Genetic Drift• Third law- pop large
• Genetic Drift- random change in allele frequency
• Failure of even a single organism to reproduce can significantly disrupt the allele frequency of the population
• Small pop lager impact
bottleneck effect
founder effectEvolution Notes 2010
Types Genetic DriftFounder Effect• Two groups from a
large, diverse population could produce new populations that differ from the original group.
bottleneck effect • is a change in allele
frequency following a dramatic reduction in the size of a population.
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Nonrandom Mating
• 4th rule- random mating
• Often influence by location
• Traits similar to own-Assortative mating
Sexual selection- picking a mate bases on looks or certain traits
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Natural selection- 5th rule1. Stabilizing selection- avg form of a trait have
the highest fitness
2. Disruptive selection- individuals with either extreme variation of a trait have greater fitness that individuals with the avg form of the trait
3. Directional selection- individuals that display a more extreme form of a trait have greater fitness than individuals with an avg form of the trait
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objectives
• Relate the biological species concept to the modern definition of species
• Explain how the isolation of populations can lead to speciation
• Compare two kinds of isolation and the pattern of speciation associated with each
• Contrast the model of punctuated equilibrium with the model of gradual change
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Formation of Species• How many species of organisms exist on Earth today?• Undiscovered species may be so numerous that we
have no accurate answer. Even small areas of tropical rain forest can contain thousands of species of plants, animals, and microorganisms.
• New species are discovered and others become extinct at an increasing rate.
• How can one species become two through speciation?
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Concept of species
• Speciation- existing species are essentially changed version of older species, results in closely related species, can become diff over time
Morphological concept of species• Morphology- internal/ external structures and
appearance of an organism, used to classify species
Biological species Concept- a species is a pop of organisms that can successfully interbreed but can not breed with other groups
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Speciation
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Isolation and speciation
4 major types
• Geographic isolation
• Allopatric speciation
• Reproductive isolation
• Sympatric speciation
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Geographic isolation
• Physical separation of members of a population
• Habitat becomes divided, geographic barriers
• Gene flow stops
• Natural selection and genetic drift cause pop to diverge incompatible for mating
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Allopatric Speciation
• Happens when species arise as a result of geographic isolation, “different homelands”
• No longer a gene flow
• Genetic drift, mutations, natural selection
• Small populations
• Could still produce fertile offspring?
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Allopatric speciation- Geographic isolation
• http://wps.prenhall.com/esm_freeman_biosci_1/7/1951/499633.cw/index.html
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Geographical and temporal isolation
• http://bioactive.mrkirkscience.com/19/ch19c1.html
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Reproductive Isolation
• Barriers to successful breeding between populations groups in the same area
Two types
1. Prezygotic isolation- before fertilization
2. Postzygotic- after fertilization
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Prezygotic barriers- isolationPrevent mating or fertilization• Temporal - mating or flowering occurs at
different season or times of day• Habitat – populations live in different habitats
and do not meet• Behavioral- there is little or no sexual
attraction between different species• Mechanical – structural differences in genitals
or flowers prevent copulation or pollen transfer• Gametic- male/female gametes die before
unite
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Behavioral isolation
An Eastern Meadowlark
Eastern meadowlark call eastern meadowlark call (http://www.naturesongs.com/eame1.wav))
A Western Meadowlark Western meadowlark call western
meadowlark call (http://www.naturesongs.com/weme1.wav
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Habitat isolation
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Behavioral isolation
• Different species of fireflies do not recognize each others' mating signals and, as a result, do not generally interbreed.
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Reproductive barriers
Example of thale cress suffering from hybrid necrosis. Left and right are the healthy parents; center is the sick hybrid offspring.
Pup fish-death valley Credit: Image: Kirsten Bomblies
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Sympatric speciation
• Two subpopulations become reproductively isolated with in the same geographic area
• Gain adaptive advantages by using different niches
• Could lead to group being isolated
• Wood frog and leopard frog have mating times and calls
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Rates of speciationTwo types:
• Gradualism- nvolves a slow, steady change in a particular line of descent.
• The fossil record shows that many organisms have indeed changed gradually over time.
• Punctuated equilibrium- sudden rapid change with periods of little change
• The fossil record reveals periods of relatively rapid change in many groups of organisms
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Rapid Evolution After Equilibrium
– Rapid evolution may occur after a small population becomes isolated from the main population. This small population can evolve faster than the larger one because genetic changes spread more quickly among fewer individuals.
– Rapid evolution may also occur when a small group of organisms migrates to a new environment. That’s what happened with the Galápagos finches.
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Rapid Evolution After Equilibrium
– Mass extinctions open many ecological niches, creating new opportunities for those organisms that survive. Groups of organisms that survive mass extinctions evolve rapidly in the several million years after the extinction.
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animations
• http://www.classzone.com/cz/books/bio_07/get_chapter_group.htm?cin=4&rg=animated_biology&at=animated_biology&var=animated_biology
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