the evolution of populations. variations genetic variations differences in individuals based on dna...
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The Evolution of PopulationsThe Evolution of Populations
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VariationsVariations
Genetic Variations Differences in individuals based on DNA or genes
For example different hair color through DNA differences
Geographic Variations Differences in individuals based on separations
between two groups For example, variations in beak size of birds based on
the resources available in the geographic area
Genetic Variations Differences in individuals based on DNA or genes
For example different hair color through DNA differences
Geographic Variations Differences in individuals based on separations
between two groups For example, variations in beak size of birds based on
the resources available in the geographic area
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Population requirementsPopulation requirements
Populations Same species Live in the same area Interbreed producing fertile offspring
Populations are determined by their gene pool - the imaginary “pool” that consists of all copies of every type of allele at every locus
Populations Same species Live in the same area Interbreed producing fertile offspring
Populations are determined by their gene pool - the imaginary “pool” that consists of all copies of every type of allele at every locus
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Hardy-Weinberg PrincipleHardy-Weinberg Principle
It makes many assumptions Mating is random No migration in or out of populations No gene flow No mutations No natural selection Infinite population
It makes many assumptions Mating is random No migration in or out of populations No gene flow No mutations No natural selection Infinite population
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Hardy-Weinberg MathHardy-Weinberg Math
p = frequency of dominant allele q = frequency of recessive allele p2 = frequency of homozygous dominant alleles q2 = frequency of homozygous recessive alleles 2pq = frequency of heterozygous alleles
p = frequency of dominant allele q = frequency of recessive allele p2 = frequency of homozygous dominant alleles q2 = frequency of homozygous recessive alleles 2pq = frequency of heterozygous alleles
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Hardy-Weinberg EquationHardy-Weinberg Equation
p2 + 2pq + q2 = 1
p2 + 2pq + q2 = 1
Expected frequency of homozygous dominant alleles
Expected frequency of heterozygous alleles
Expected frequency of homozygous recessive alleles
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Genetic DriftGenetic Drift Genetic Drift is the chance events can cause
allele frequencies to fluctuate unpredictably from generation to generation Founder Effect Bottleneck Effect
Genetic Drift is the chance events can cause allele frequencies to fluctuate unpredictably from generation to generation Founder Effect Bottleneck Effect
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Founder EffectFounder Effect A few members of a larger population
become isolated
This group then establishes a new population whose gene pool differs from that of the source
A few members of a larger population become isolated
This group then establishes a new population whose gene pool differs from that of the source
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Founder Effect ExampleFounder Effect Example
The Dutch population moving from their homeland of the Netherlands to South Africa, creating a small population In this population today, the rate of Huntington’s
Disease is extremely high This is because a few people out of the small
amount of original settlers had the disease, thus there was a higher chance for people to inherit it than in the large population
Therefore, more people have the disease
The Dutch population moving from their homeland of the Netherlands to South Africa, creating a small population In this population today, the rate of Huntington’s
Disease is extremely high This is because a few people out of the small
amount of original settlers had the disease, thus there was a higher chance for people to inherit it than in the large population
Therefore, more people have the disease
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Bottleneck EffectBottleneck Effect
A natural disaster causes a large reduction in population size The surviving population by chance has a
different allele frequency than the large population and thus, the gene pool is changed
A natural disaster causes a large reduction in population size The surviving population by chance has a
different allele frequency than the large population and thus, the gene pool is changed
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Bottleneck Effect ExampleBottleneck Effect Example The Northern Elephant Seal was nearly completely
annihilated in the late 19th century through people hunting it for its blubber. Because of this, the Northern Elephant Seal does not have the same variations in the gene pool the Southern Elephant Seals do The Northern Elephant Seals are smaller than the Southern The Northern Elephant Seals have longer trunks
The Northern Elephant Seal was nearly completely annihilated in the late 19th century through people hunting it for its blubber. Because of this, the Northern Elephant Seal does not have the same variations in the gene pool the Southern Elephant Seals do The Northern Elephant Seals are smaller than the Southern The Northern Elephant Seals have longer trunks
Northern
Southern
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Early EarthEarly Earth
Described as being a “hot thin soup” Everything lived in the water which was
made of amino acids, lipids, sugars and nitrogenous bases These are theorized to have come from comets
that hit Earth and underwater volcanoes
Described as being a “hot thin soup” Everything lived in the water which was
made of amino acids, lipids, sugars and nitrogenous bases These are theorized to have come from comets
that hit Earth and underwater volcanoes
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Earth TimelineEarth Timeline
First prokaryotes (single celled)
First eukaryotes (single celled)
First multi-celled prokaryotes
First land animals and plants
3,500
2,100
1,200
500
Numbers are in millions of years ago
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Descent with Modification: Darwinian View of Life
Descent with Modification: Darwinian View of Life
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Darwin’s Theory of EvolutionDarwin’s Theory of Evolution
New species evolve from old species Populations undergo genetic changes over time Driven by natural selection Organisms that have a particular trait that allows
them to survive in their environment are more likely to reproduce and pass the trait onto the next generation
Every living organism shares a common ancestor
New species evolve from old species Populations undergo genetic changes over time Driven by natural selection Organisms that have a particular trait that allows
them to survive in their environment are more likely to reproduce and pass the trait onto the next generation
Every living organism shares a common ancestor
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Darwin’s Theory of Evolution continued
Darwin’s Theory of Evolution continued
Four requirements for theory to be true More offspring are produced then can survive Must be competition for resources in
environment Must be genetic variation in population Some genetic combinations must give an
advantage in survival
Four requirements for theory to be true More offspring are produced then can survive Must be competition for resources in
environment Must be genetic variation in population Some genetic combinations must give an
advantage in survival
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Natural SelectionNatural Selection Darwin believed in “survival of the fittest”
This means that organisms most suited to their environment, not necessarily the strongest, would survive to reproduce
According to Darwin’s theory, success is measured by reproductive accomplishment (having babies)
Darwin believed in “survival of the fittest” This means that organisms most suited to their environment,
not necessarily the strongest, would survive to reproduce
According to Darwin’s theory, success is measured by reproductive accomplishment (having babies)
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Two Evolutionary TheoriesTwo Evolutionary Theories
Punctuated Equilibrium - Species stay relatively similar for long periods of time (thousands of years) followed by rapid genetic change, forming new species Thought to be response to dramatic changes in
environment
Punctuated Equilibrium - Species stay relatively similar for long periods of time (thousands of years) followed by rapid genetic change, forming new species Thought to be response to dramatic changes in
environment
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Two Evolutionary Theories continued
Two Evolutionary Theories continued
Gradualism - Species change very slowly over time, until they obtain sufficient changes to be called an independent species
Gradualism - Species change very slowly over time, until they obtain sufficient changes to be called an independent species
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Two Evolutionary Theories continued
Two Evolutionary Theories continued
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Evidence for Natural SelectionEvidence for Natural Selection Fossil Record
Much of the evidence for Natural Selection is found in similarities in fossils
Comparative anatomy Homologous Structures: Come from same embryological tissue
(hands and wings, similar bone structure + DNA similarities) Analogous Structures: Similar purpose, different origin (Bat and
Bee wings, both used to fly but few similarities in DNA) Vestigial Organs
Remnants of features no longer used in an organism (Tailbone in humans, leg stubs in whale, etc)
No other explanation for their presence other then evolution
Fossil Record Much of the evidence for Natural Selection is found in similarities
in fossils Comparative anatomy
Homologous Structures: Come from same embryological tissue (hands and wings, similar bone structure + DNA similarities)
Analogous Structures: Similar purpose, different origin (Bat and Bee wings, both used to fly but few similarities in DNA)
Vestigial Organs Remnants of features no longer used in an organism (Tailbone in
humans, leg stubs in whale, etc) No other explanation for their presence other then evolution
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Types of SelectionTypes of Selection
Directional Selection - Selection favors one phenotype and causes a shift toward an extreme
Example - If a certain coloration provides rats with good camouflage to hide from predators, more organisms with that coloration would survive and reproduce
Directional Selection - Selection favors one phenotype and causes a shift toward an extreme
Example - If a certain coloration provides rats with good camouflage to hide from predators, more organisms with that coloration would survive and reproduce
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Types of Selection cont.Types of Selection cont.
Stabilizing Selection - Average phenotype is favored, extremes selected against
Example - If the color of the rocks in which rats hide is a dull gray, and the average rat coloration is gray, any differently colored rats will stand out to predators and be less likely to survive
Stabilizing Selection - Average phenotype is favored, extremes selected against
Example - If the color of the rocks in which rats hide is a dull gray, and the average rat coloration is gray, any differently colored rats will stand out to predators and be less likely to survive
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Types of Selection cont.Types of Selection cont.
Disruptive Selection - Extremes are favored and average is selected against
Example - If rats hide in light and dark colored rocks, any intermediately colored rats will be easily targeted and the extremes will be more likely to reproduce
Disruptive Selection - Extremes are favored and average is selected against
Example - If rats hide in light and dark colored rocks, any intermediately colored rats will be easily targeted and the extremes will be more likely to reproduce
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Species and SpeciationSpecies and Speciation
Species - a group of potentially, breeding natural populations that are reproductively isolated from other groups
Speciation - Emergence of a new species
Species - a group of potentially, breeding natural populations that are reproductively isolated from other groups
Speciation - Emergence of a new species
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Phyletic SpeciationPhyletic Speciation
Phyletic Speciation - Slow changes occur over thousands of years until enough changes have been acquired for the new species to be reproductively isolated from the “mother” species Species A -> A1 -> A2->…A20
One would never find Ax living at the same time as species “A”, the original species will turn into the new species
Phyletic Speciation - Slow changes occur over thousands of years until enough changes have been acquired for the new species to be reproductively isolated from the “mother” species Species A -> A1 -> A2->…A20
One would never find Ax living at the same time as species “A”, the original species will turn into the new species
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Divergent SpeciationDivergent Speciation
Divergent Speciation - Species will branch off origin species to create new species “Mother” species and offshoot species can exist at the
same time
Wolves gave rise to dogs, but wolves still exist
Divergent Speciation - Species will branch off origin species to create new species “Mother” species and offshoot species can exist at the
same time
Wolves gave rise to dogs, but wolves still exist
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Types of Divergent SpeciationTypes of Divergent Speciation
Allopatric speciation - Most common type of Divergent speciation, deals with actually physical separation Geographic Barriers - 2 populations evolve differently Natural disasters - drive populations away to new
environments Adaptive radiation - Spread of population into new environment
with lany new evolutionary adaptations, normally forms many new species
Character displacement - If competition with other species, organisms evolve exaggerated differences between species
Because natural selection favors species that can find unoccupied niche in environment
Allopatric speciation - Most common type of Divergent speciation, deals with actually physical separation Geographic Barriers - 2 populations evolve differently Natural disasters - drive populations away to new
environments Adaptive radiation - Spread of population into new environment
with lany new evolutionary adaptations, normally forms many new species
Character displacement - If competition with other species, organisms evolve exaggerated differences between species
Because natural selection favors species that can find unoccupied niche in environment
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Types of Divergent SpeciationTypes of Divergent Speciation
Sympatric speciation - New species forms while still with old species geographically More common with plants Happens most easily with hybridization - mating 2
species Usually doesn’t work because the mismatch of homologous
chromosomes Plants avoid this with polyploidy - Doubles each chromosome
during mitosis -> instant homologous chromosomes
Sympatric speciation - New species forms while still with old species geographically More common with plants Happens most easily with hybridization - mating 2
species Usually doesn’t work because the mismatch of homologous
chromosomes Plants avoid this with polyploidy - Doubles each chromosome
during mitosis -> instant homologous chromosomes
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Allopatric vs Divergent Speciation
Allopatric vs Divergent Speciation
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Reproductive Isolating Mechanisms
Reproductive Isolating Mechanisms
Prezygotic - Occurs before fertilization Different mating rituals Different mating seasons Different “lock and key”
Prezygotic - Occurs before fertilization Different mating rituals Different mating seasons Different “lock and key”
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Mating Ritual VideoMating Ritual Video
http://www.youtube.com/watch?v=ACTwvx_STK4&feature=related
When you finish watching this video do not quit safari, instead just click back to the PowerPoint
http://www.youtube.com/watch?v=ACTwvx_STK4&feature=related
When you finish watching this video do not quit safari, instead just click back to the PowerPoint
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Reproductive Isolating Mechanisms
Reproductive Isolating Mechanisms
Postzygotic - Occurs after fertilization Embryo will most likely not survive, or if born
will be weak or infertile, because chromosome mismatch
Mules are examples of infertile survivors
of postzygotic reproductive isolation
Postzygotic - Occurs after fertilization Embryo will most likely not survive, or if born
will be weak or infertile, because chromosome mismatch
Mules are examples of infertile survivors
of postzygotic reproductive isolation
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Evolutionary TrendsEvolutionary Trends
Divergent Evolution - Separation of related species Adapt to differences in environments
Divergent Evolution - Separation of related species Adapt to differences in environments
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Evolutionary TrendsEvolutionary Trends
Convergent Evolution - Different unrelated species evolve into similar organisms Again, to adapt to environment, (ex. Whales
and Fish) but different
Convergent Evolution - Different unrelated species evolve into similar organisms Again, to adapt to environment, (ex. Whales
and Fish) but different
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Evolutionary TrendsEvolutionary Trends
Coevolution - Two species evolve together and affect each other Example: Bees pollinate flowers and spread
their seeds
Coevolution - Two species evolve together and affect each other Example: Bees pollinate flowers and spread
their seeds
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Works CitedWorks Cited http://www.turbosquid.com/FullPreview/Index.cfm/ID/255352 DNA picture http://www.zastavki.com/pictures/1024x768/2010/Animals_Birds_Birdies_with_dark_blue_paws_023799_.jpg Blue footed booby picture for populations http://www.cancer.gov/cancertopics/understandingcancer/cancergenomics/page36 founder effect picture http://faculty.fortlewis.edu/dott_c/Bio125-ConsBio/ClassMeetings/Week08-ExtinctVortex/8a-Endangerment.htm picture of bottleneck effect http://www.eleseal.org/bio/north.html slide 11 information http://www.deeproot.com/blog/blog-entries/celebrating-the-earth-on-earth-day/earth-day Earth picture http://www.tutorvista.com/content/biology/biology-iii/origin-life/origin-life-steps.php picture of first prokaryote http://www.aenvirocure.com/DB_DATA/contams/organic/BACTERIA.HTML picture of first unicellular prokaryote http://www.networlddirectory.com/blogs/permalinks/4-2006/gap-between-fish-and-land-animals.html first land animal picture http://images.nationalgeographic.com/wpf/media-live/photos/000/005/cache/grey-wolf_565_600x450.jpg wolf picture http://goldcountryhoney.com/plant-a-garden-that-welcomes-nature%E2%80%99s-insect-pollinators/ bee picture http://seacloud-2.appspot.com/images/baby2.gif Picture of baby http://anthro.palomar.edu/synthetic/images/graph_of_punctuated_equilibrium.gif picture of punctuated equilibrium http://anthro.palomar.edu/synthetic/images/graph_of_phyletic_gradualism.gifPicture of Gradualism http://casarcia.com/life/ch06/6-1not3.jpg Pict of gradualism+PE http://avonapbio.pbworks.com/f/directional_selection.gif Pict of directional selection http://img.sparknotes.com/figures/A/a3aa6bb95c7d70781cc0089d17f9160f/stable.gif Pict of stabalizing selection http://img.sparknotes.com/figures/A/a3aa6bb95c7d70781cc0089d17f9160f/disrupt.gif pic of disruptive selection Theory of Evolution slides- Roisen http://melinabeachturtlehatchery.files.wordpress.com/2010/07/turtle4.jpg turtle picture http://seacloud-2.appspot.com/images/baby2.gif picture of baby http://anthro.palomar.edu/synthetic/images/graph_of_phyletic_gradualism.gif Picture of Gradualism http://a-z-animals.com/media/animals/images/470x370/mule1.jpg Picture of mule http://thisoldearth.net/Images/diverge_evol.gif Picture of divergent evolution Bio textbook – alloptric and divergent speciation picture
http://www.turbosquid.com/FullPreview/Index.cfm/ID/255352 DNA picture http://www.zastavki.com/pictures/1024x768/2010/Animals_Birds_Birdies_with_dark_blue_paws_023799_.jpg Blue footed booby picture for populations http://www.cancer.gov/cancertopics/understandingcancer/cancergenomics/page36 founder effect picture http://faculty.fortlewis.edu/dott_c/Bio125-ConsBio/ClassMeetings/Week08-ExtinctVortex/8a-Endangerment.htm picture of bottleneck effect http://www.eleseal.org/bio/north.html slide 11 information http://www.deeproot.com/blog/blog-entries/celebrating-the-earth-on-earth-day/earth-day Earth picture http://www.tutorvista.com/content/biology/biology-iii/origin-life/origin-life-steps.php picture of first prokaryote http://www.aenvirocure.com/DB_DATA/contams/organic/BACTERIA.HTML picture of first unicellular prokaryote http://www.networlddirectory.com/blogs/permalinks/4-2006/gap-between-fish-and-land-animals.html first land animal picture http://images.nationalgeographic.com/wpf/media-live/photos/000/005/cache/grey-wolf_565_600x450.jpg wolf picture http://goldcountryhoney.com/plant-a-garden-that-welcomes-nature%E2%80%99s-insect-pollinators/ bee picture http://seacloud-2.appspot.com/images/baby2.gif Picture of baby http://anthro.palomar.edu/synthetic/images/graph_of_punctuated_equilibrium.gif picture of punctuated equilibrium http://anthro.palomar.edu/synthetic/images/graph_of_phyletic_gradualism.gifPicture of Gradualism http://casarcia.com/life/ch06/6-1not3.jpg Pict of gradualism+PE http://avonapbio.pbworks.com/f/directional_selection.gif Pict of directional selection http://img.sparknotes.com/figures/A/a3aa6bb95c7d70781cc0089d17f9160f/stable.gif Pict of stabalizing selection http://img.sparknotes.com/figures/A/a3aa6bb95c7d70781cc0089d17f9160f/disrupt.gif pic of disruptive selection Theory of Evolution slides- Roisen http://melinabeachturtlehatchery.files.wordpress.com/2010/07/turtle4.jpg turtle picture http://seacloud-2.appspot.com/images/baby2.gif picture of baby http://anthro.palomar.edu/synthetic/images/graph_of_phyletic_gradualism.gif Picture of Gradualism http://a-z-animals.com/media/animals/images/470x370/mule1.jpg Picture of mule http://thisoldearth.net/Images/diverge_evol.gif Picture of divergent evolution Bio textbook – alloptric and divergent speciation picture