Evolution- “Change Over Time”
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Transcript of Evolution- “Change Over Time”
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Evolution- “Change Over Time” All of the changes that have occurred in living things
since the beginning of life on Earth
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Darwin vs. Lamarck
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Lamarck Darwin
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Jean-Baptiste LaMarck French, Early 1800’s
Theory of Inheritance of
Acquired Characteristics Two main points…
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1. Principle of Use & Disuse: Most used body structures develop, unused
structures waste away
2. Inheritance of Acquired Characteristics:
• Once the structure is modified, the new trait can be inherited (passed to offspring)
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Explain the picture below as if you were LaMarck…
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Why we don’t believe him…
Genetics: Gregor Mendel discovered that traits are passed down through GENES (which aren’t affected by the outside world in that way)
•Experiments: show that changes that occur in an animal’s life are not passed on to its offspring
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Charles Darwin“The Father of Evolution”
1831- sailed on the HMS Beagle to the Galapagos Islands.
Studied many species of finches. Published book in 1845:
“On the Origin of Species by Natural Selection”
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Darwin’s Theory of Evolution
(don’t copy all this it’s on your handout)
“Survival of the Fittest”
“Natural Selection”
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Natural Selection Process by which favorable heritable traits
become more common in successive generations of a population of reproducing organisms, and unfavorable heritable traits become less common.
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Natural Selection
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Four main points… 1. More organisms are produced than can
survive…leads to COMPETITION OVER RESOURCES
Ex’s of resources… Water Food Habitat Mates
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2. Individuals within a population vary, and some of these traits are heritable.
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3. Some variations are FAVORABLE (increase chances for survival/ reproduction)
Male vs. Female Cardinals
Male color attracts female= reproductive advantage
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4. Better adapted individuals survive and reproduce
These are the individuals that will pass on their genes to the next generation.
This can change the GENE POOL: Includes all the genes of every reproductive
member of a population
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What The theory of evolution IS NOT!!! It does NOT occur in INDIVIDUALS…only
populations! It does NOT happen quickly…the Earth has
a Looooooong history! It does NOT explain how life came to be on
Earth, just how it evolved after it was here. It does NOT have any driving force except
the competition for limited resources.
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Species… A group of organisms that are genetically
similar enough to produce healthy, fertile offspring.
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Darwin’s FinchesAn example of Adaptive Radiation
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The Galapagos Islands
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Finch Types:Using Darwin’s Theory,
explain how all of these different species
evolved.
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“Seeing this gradation & diversity of structure in one small, intimately
related group of birds, one might really fancy that from an original
paucity of birds in this archipelago, one species
had been taken and modified for different
ends.”
Darwin…one smart guy…
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Phylogenetic Trees Show evolutionary “relatedness” Based on fossil record, dna evidence, structural
similarity, etc
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What common ancestor do all of These organisms share?
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Darwin’s Finches…again…What common ancestor do the seed eating and cactus eating finches share?
What do each of the finch pictures on here represent?
Which 2 species are more closely related: a. Mangrove Finch and
Woodpecker finchb. Small ground finch and
Bud-eating finch
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Good Questions with Good Answers. How can new species be formed and the
old one not go extinct? Wasn’t the whole reason a new species formed was that it had a survival advantage?
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Speciation does NOT necessarily cause EXTINCTION! A NEW SPECIES’ existence just means…
That POPULATION’S GENES have been altered so much that they can no longer mate with members of the original population.
NOW there are TWO SPECIES Eventually…one may go extinct, but NOT
NECESSARY!!!
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Darwin’s Finches…p 558 Illustrate SPECIATION: when a species
breaks into two (or more) The organisms in the two species can no
longer… INTERBREED
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What could cause this to happen?
Occupy a new niche/habitat Geographic barriers/Reproductive Isolation Reduction of gene flow Selective Pressure
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Geographic Isolation…
Sometimes populations are spit In two due to a geographic barrier. This can lead to reproductive isolation. How could this lead to speciation?
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Reduction of Gene Flow…If members of a species live far away from each other, they will have a decreased chance of mating. This would create reduced gene flow, but not total isolation. Speciation would probably also require different selective pressures at the two ends.
Eventually, this could alter gene frequencies in groups at different ends of the range so much that they would not be able to mate if they were reunited…that’s speciation!
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Selective Pressure A “pressure” from the environment that
makes some individuals more likely to survive and reproduce.
Three types… Disruptive Directional Stabilizing
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Types of Natural Selection Stabilizing Selection
Occurs when natural selection works against the 2 extremes of a trait to make the population more uniform.
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Stabilizing Selection
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Stabilizing Selection Birth weight of babies
Babies that are too big or too small might have less chance of being born healthy.
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Natural Selection Directional Selection
Selects the extreme of 1 trait.
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Directional Selection In a population of plants, flowers with the
brightest color might be selected for in order to attract the most pollinators.
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Natural Selection Disruptive Selection
Selects against the mean of the population.
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Disruptive Selection If there are 2 types of seeds to eat for a
population of birds, either of 2 different beak shapes (sharp or blunt) might be selected for, but a beak that’s the average of the 2 shapes might not be particularly good at eating either seed, so it would be selected against.
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Three important points… Evolution occurs over MANY generations Evolution occurs within POPULATIONS
(NOT individuals) Evolution involves genetic changes in a
SPECIES (Members of a species interbreed to produce
healthy, fertile offspring)
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The process by which favorable heritable traits become more common in successive generations of a population of reproducing organisms, and unfavorable heritable traits become less common.
Evolutio
n
Natural
Select.
..
Adaptat
ions
Gen
etic R
ecomb...
25% 25%25%25%
1. Evolution2. Natural Selection3. Adaptations4. Genetic
Recombination
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Consider, for example, a population of shellfish called limpets. The shell color of these limpets ranges from white, to tan, to dark brown. As adults, limpets live attached to rocks. On light-colored rocks, white-shelled limpets have an advantage because their bird predators cannot easily see them. On dark-colored rocks, dark-colored limpets have the advantage because they are camouflaged. On the other hand, birds easily see tan-colored limpets on either the light or dark backgrounds. These tan-colored limpets will be at a selection disadvantage and will most likely become extinct from the population. This
type of natural selection is known as:
Stabiliz
ing Se..
.
Directi
onal Se..
.
Disrup
tive S
el...
33% 33%33%
1. Stabilizing Selection2. Directional Selection3. Disruptive Selection
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Consider a population of spiders in which the average size is a survival advantage. Predators in the area might easily see and capture spiders that are larger than average. However, small spiders may find it difficult to find food. Therefore, in this environment, average-sized spiders are more likely to survive. This type of natural selection is known as:
Stabiliz
ing Se..
.
Directi
onal Se..
.
Disrup
tive S
el...
33% 33%33%
1. Stabilizing Selection2. Directional Selection3. Disruptive Selection
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Imagine a population of woodpeckers pecking holes in trees to feed on the insects living under the bark. Suppose that a species of insect that lives deep in tree tissues invades the trees in a woodpecker population’s territory. Only woodpeckers with long beaks could feed on that insect. Therefore, the long-beaked woodpeckers in the population would have a selective advantage over woodpeckers with very short or average-sized beaks. This type of natural selection is known as:
Stabiliz
ing Se..
.
Directi
onal Se..
.
Disrup
tive S
el...
33% 33%33%
1. Stabilizing Selection2. Directional Selection3. Disruptive Selection
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The smallest unit that can evolve is:
A genome
An indivi
dual
A commun
ity
A populatio
n
25% 25%25%25%
1. A genome2. An individual3. A community4. A population
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To predict evolutionary activity, we look at the population’s Gene Pool
Gene pool - all the genes of every reproductive member of a population.
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Genetic Equilibrium
Not all populations are in an active state of “natural selection”
GENETIC EQUILIBRIUM This means that there is no change in the gene
pool = no evolution
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Genetic Equilibrium 1.) Population size is large 2.) No gene flow in the population
No new organisms introducing more alleles 3.) No mutations 4.) No environmental factors causing
natural selection No trait is favorable over another
5.) Random mating must occur
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So what factors exist to make a population evolve?
It must NOT be in GENETIC EQUILIBRIUM
Something that knocks the population out of genetic equilibrium is called a
MECHANISM OF EVOLUTION
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Mechanisms of Evolution
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Sources of Genetic Variation What do you think are some sources of
genetic variation?
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Mechanisms of Evolution 1. Natural Selection 2. Sexual Selection / Non-random mating 3. Mutation 4. Gene Flow (Migration) 5. Genetic Drift- reduces population size
Bottleneck effect Founder effect
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Genetic DriftGenetic Drift occurs when the frequency of alleles change
due to RANDOM PROCESSES!
(NOT natural selection)
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Genetic Drift
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Natural Selection vs. Genetic Drift
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Genetic Drift http://www.biology.arizona.edu/evolution/act
/drift/frame.html
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Kinds of Genetic Drift…Bottleneck Effect
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Bottleneck Effect
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Bottleneck Effect
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Another kind of Genetic Drift…Founder Effect
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What term(s) would best describe the picture below.
0%
0%
76%
24% 1. Founder Effect2. Bottleneck Effect3. Ross Effect4. Mutation
Original Population Newly Established Population
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What term(s) would best describe the picture below.
25%
25%
25%
25% 1. Pizza effect2. Bottleneck effect3. Founder effect4. Woods effect
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Evolution Rewind
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If a large population of the same species of squirrels were fed nuts that come from plant containing a toxin that is poisonous to the squirrel, the researcher concludes that these squirrels die and cannot survive on these nuts alone. Then the researcher introduces the poisonous nuts to a smaller isolated population of the same species of bird and finds that these birds are able to eat the nuts. How can this be explained?
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Recently West Nile Virus has become a major problem in our area. Cities have begun spraying pesticides in the summertime to try and kill off a large amount of mosquitoes. How come every few years the cities should change their pesticide mix?
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Population
Genetics
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Relative Frequency of an Allele
The number of times an allele occurs in the gene pool, given as a percentage
Relative frequency has nothing to do with dominant or recessive
The recessive allele can occur more frequently
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How does reproduction affect natural selection
Discuss with your partner: How would a population that reproduces asexually “evolve”
differently than one that reproduces sexually? WHY?
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A note on sexual reproduction… Sexual reproduction can produce many
different phenotypes Sexual reproduction does NOT change
relative frequency of alleles in a population Think about shuffling a deck of cards
Shuffling cards gives you different hands It won’t change the number of kings in a deck
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Population Genetics In the early 1900s these two men
discovered how the frequency of a trait’s alleles in a population could be described mathematically.
G H Hardy – British Mathematician Wilhelm Weinberg – German Doctor
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Population Genetics
For every phenotype how many alleles do you have??? 2
1 from Mom and 1 from Dad These scientists figured out an equation
that can be used to figure out the percentages of alleles and genotypes that are in a population.
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Genetic Equilibrium:Hardy-Weinberg Principle Allele frequency in a population
will remain constant unless an outside factor causes those frequencies to change
When allele frequencies remain constant, we call this genetic equilibrium
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Population Genetics Background Given a population of 300 plants…
How many total height genes are there? Given that 100 plants are short (recessive trait),
200 are tall, and 50 are homozygous tall, how many are there of each genotype?
Homozygous recessive Homozygous dominant Heterozygous
How many T alleles are there in the gene pool? What is this alleles’ frequency in the population?
How many t alleles are there in the gene pool? What is this alleles’ frequency in the population?
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Genetic Equilibrium Review
In order for their equation to work the population has to be in GENETIC EQUILIBRIUM This means that there is no change in the gene
pool = no evolution
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Genetic Equilibrium (Review) 1.) Population size is large 2.) No gene flow in the population
No new organisms introducing more alleles 3.) No mutations 4.) No environmental factors causing
natural selection No trait is favorable over another
5.) Random mating must occur
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The Hardy-Weinberg Equation p2 + 2pq + q2 = 1 p2 = frequency of the homozygous
dominant genotype 2pq = frequency of the heterozygous
genotype q2 = frequency of the homozygous
recessive genotype
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Hardy-Weinberg p – frequency of the dominant allele q – frequency of the recessive allele Because there are only 2 alleles, the
frequency of the dominant allele (p) and the frequency of the recessive allele (q) will add up to 1 or 100%
p + q = 1
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Hardy-Weinberg In reality, no population satisfies the Hardy-
Weinberg equilibrium completely However, in large populations with little
migration and little natural selection, it can approximate gene frequencies
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Hardy-Weinberg Example In a population of 100 people 28 of them were
found to have freckles and 72 were not. We learned in class during our genetics unit that having freckles is a recessive trait and not having them is because of a dominant trait. If this population is in genetic equilibrium then solve for the allelic frequencies and the variables in the hardy-weinberg equation:
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How does reproduction affect natural selection
Discuss with your partner: How would a population that reproduces asexually “evolve” differently than one that
reproduces sexually? WHY?
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A note on sexual reproduction… Sexual reproduction can produce many
different phenotypes Sexual reproduction does NOT change
relative frequency of alleles in a population
Think about shuffling a deck of cards Shuffling cards gives you different hands It won’t change the number of kings in a deck
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Queens full of Jacks! Let’s Mate! red card=dominant allele=R black card=recessive allele=r
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P2 + 2pq + q2RR Rr rr
Prediction 36% 48% 16%
1st gen.
2nd gen
3rd gen
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Predicted vs Actual If this population is in equilibrium, we
should have the predicted % for our genotypes…
We have…20 rr envelopes and 30RR envelopes
Are we in equilibrium?
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What should happen?If we are evolving…If we are not…
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If a population is in genetic equilibrium and 30% of the individuals are homozygous recessive for the trait of color, what is the percentage of homozygous dominant individuals?
.3 .55 .45 .2 .5
0% 0% 0%0%0%
1. .302. .553. .454. .205. .50
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
21 22 23 24 25 26 27 28
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If a population is in genetic equilibrium and 41% of the individuals are homozygous recessive for the trait of color, what is the percentage of homozygous dominant individuals?
.13 .36 .45 .64 .5
0% 0% 0%0%0%
1. .132. .363. .454. .645. .50
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
21 22 23 24 25 26 27 28
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Using the example of the west nile mosquitoes that are sprayed with a pesticide, suppose one mosquito has a genetic mutation that allows the mosquito to survive. Which graph best represents the frequency of this gene over time?
Picture
Choice
1
Picture
Choice
2
Picture
Choice
3
Picture
Choice
4
0% 0%0%0%
1. 2.
3. 4.
1. Picture Choice 12. Picture Choice 23. Picture Choice 34. Picture Choice 4
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
21 22 23 24 25 26 27 28
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You have determined the frequency of the dominant allele in a population. Over the next two generations, the frequency of this allele does not change. Which factors below must be true in order to maintain this equilibrium:
20%
20%
20%
20%
20% 1. Random mating2. Large population size3. No natural selection4. No gene flow5. No mutations
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The frequency of a particular recessive allele in a population of chipmunks is .3 The frequency of the dominant allele in this same population is:
25%
25%
25%
25%
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20
21 22 23 24 25 26 27 28
1. .32. .63. .74. 1