Mendel’s Principles of Heredity By Gabriel Tordjman For Darwin’s Tea Party.
Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists...
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Transcript of Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists...
![Page 1: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/1.jpg)
Chap 16: Evolution of Populations
Darwin never knew how heredity actually worked
Biologists connected Mendel’s work to Darwin’s in the 1930’s
Advances in genetics since then has redefined many of Darwin’s ideas in genetic terms
Neo-Darwinism
![Page 2: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/2.jpg)
Chap 16: Evolution of Populations
Single-gene & Polygenic Traits
# of phenotypes produced for given trait depends on how many genes control trait
Single-gene traits controlled by a single gene with two alleles
Ex.- widow’s peak
![Page 3: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/3.jpg)
Fre
qu
ency
of
Ph
eno
typ
e(%
)
100
80
60
40
20
0
Widow’s peak No widow’s peak
Phenotype
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Chap 16: Evolution of Populations
Many traits controlled by two or more genes
Called polygenic traits
Each gene often has two or more alleles
Result: one polygenic trait can have many possible genotypes & phenotypes
Ex.- height
Distribution of phenotypes usually takes on bell shape on graph (normal distribution)
![Page 5: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/5.jpg)
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Chap 16: Evolution of Populations
How Common is Genetic Variation?
All genes have at least two forms (alleles)
Plants & animals often have many alleles for a single trait
Some variation is “invisible” since it involves biochemical processes
Organisms may also be heterozygous for many genes
![Page 7: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/7.jpg)
Chap 16: Evolution of Populations
Sources of Genetic Variation
Two main sources of genetic variation:
- mutations
- genetic shuffling resulting from sexual reproduction
![Page 8: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/8.jpg)
Chap 16: Evolution of Populations
Mutations
Any change in a sequence of DNA
Can occur due to mistakes in replication or due to environmental factors (radiation)
Do not always affect organism’s phenotype
Those that do, may affect an organism’s fitness
Other mutations have no effect on fitness
![Page 9: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/9.jpg)
Chap 16: Evolution of Populations
Gene Shuffling
Even though parents provided you your genes, you don’t look exactly like them
Most heritable differences due to gene shuffling that occurs during meiosis
Each member of homologous pair moves independently:
23 chromosomes can produce 8.4 million combinations
![Page 10: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/10.jpg)
Chap 16: Evolution of Populations
Crossing-over also increases the # of different genotypes that can appear in offspring
Sexual reproduction major source of variation within populations
Does not change relative allele frequency on its own
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Chap 16: Evolution of Populations
Variation and Gene Pools
Genetic variation studied in populations
Population- group of individuals of the same species that interbreed
Since they interbreed, share a common group of genes called a gene pool
Gene pool- consists of all genes, including all different alleles, present in a population
![Page 12: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/12.jpg)
Chap 16: Evolution of Populations
Relative frequency of an allele is the # of times that allele occurs in the gene pool, compared with # of times other alleles for same gene occur
Often expressed as a percentage
In genetic terms, evolution is any change in the relative frequency of alleles in a population
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Sample Population
48% heterozygous
black
36% homozygous
brown
16% homozygous
black
Frequency of Alleles
allele for brown fur
allele for black fur
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Chap 16: Evolution of Populations
Evolution versus Genetic Equilibrium
Are there any conditions under which no evolution will occur?
Is there any way to recognize when this is occurring?
Answer is provided by the Hardy-Weinberg principle
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Chap 16: Evolution of Populations
Hardy-Weinberg principle:
allele frequencies in a population will remain constant unless one or more factors cause those frequencies to change
Situation called genetic equilibrium
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Chap 16: Evolution of Populations
Five conditions required to maintain genetic equilibrium from generation to generation:
- Must be random mating
- Population must be very large
- No movement into/out of population
- No mutations
- No natural selection
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Chap 16: Evolution of Populations
Some populations, these criteria met for long time periods
If conditions are not met, genetic equilibrium disrupted, & population evolves
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Chap 16: Evolution of Populations
Random Mating
All members of population have equal chance of producing offspring
In natural populations, mating is rarely completely random
Nonrandom mating means genes for certain traits are under strong selection pressure (sexual selection)
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Chap 16: Evolution of Populations
Large Population
Genetic drift has less effect on large populations
No Movement Into/Out of Population
New individuals could bring new alleles into population
Gene pool of population must be kept separate from others
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Chap 16: Evolution of Populations
No Mutations
If genes mutate, then new alleles might be introduced into gene pool
Gene frequencies will change
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Chap 16: Evolution of Populations
No Natural Selection
All genotypes in the population must have equal chance of survival & reproduction
No phenotype can have selective advantage over another
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Chap 16: Evolution of Populations
Evolution as Genetic Change
Each time an organism reproduces, passes along a copy of its genes to offspring
Can then view evolutionary fitness as an organism’s success in passing along genes
Can view evolutionary adaptation as any genetically controlled functional, structural, or behavioral trait that affects ability to pass along genes to next generation
![Page 23: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/23.jpg)
Chap 16: Evolution of Populations
Natural selection never acts directly on genes
Entire organism (not single gene) that either reproduces or does not (pass along genes)
Can only affect which organisms survive & reproduce or do not
Individual does not contribute its alleles to gene pool unless it survives & reproduces
![Page 24: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/24.jpg)
Chap 16: Evolution of Populations
If organism produces many offspring, its alleles stay in gene pool & may increase in frequency
Evolution is change over time in relative frequencies of alleles in a population
So, populations can evolve, not individual organisms, over time
![Page 25: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/25.jpg)
Chap 16: Evolution of Populations
Natural Selection on Single-gene Traits
Natural selection on single-gene traits can lead to changes in allele frequency
Ex.- population of lizards
Normally brown, experiences mutation causing red and black phenotypes
If red more visible to predators, those individuals less likely to survive & reproduce
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Chap 16: Evolution of Populations
Black lizards might warm up faster on cold days
If high body temp. allows faster movement, then black moves faster
Avoids predators & feeds easier: might produce more offspring than brown form
If color change has no effect on fitness, then no selection pressure would occur
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Chap 16: Evolution of Populations
Natural Selection on Polygenic Traits
Fitness of individuals close to one another on bell curve will not be very different
Fitness can vary great deal from one end of a curve to the other
Where fitness varies, natural selection can act
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Chap 16: Evolution of Populations
Genetic Drift
N.S. not only source of evolutionary change
In small populations, an allele can become more or less common by chance
Probability can be used to determine results of crosses in large populations
Smaller the population, farther the results might be from predicted values
![Page 29: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/29.jpg)
Chap 16: Evolution of Populations
This random change in allele frequency is known as genetic drift
In small populations, individuals that carry a particular allele may leave more descendants than others, just by chance
Over time, a series of chance events of this type can cause an allele to become common in a population
![Page 30: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/30.jpg)
Chap 16: Evolution of Populations
Genetic drift may occur when a small group of individuals colonizes a new habitat
These individuals may carry alleles in a different frequency than the parent population
Population founded will be genetically different from parent population
Cause is chance (that particular alleles were in founding individuals), not N.S.
![Page 31: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/31.jpg)
Chap 16: Evolution of Populations
Natural selection can affect the distributions of phenotypes in any of three ways:
- Directional selection
- Stabilizing selection
- Disruptive selection
![Page 32: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/32.jpg)
Chap 16: Evolution of Populations
Directional Selection
Directional selection- when individuals at one end of curve have higher fitness than individuals in middle or at other end
Range of phenotypes shifts towards one end due to some individuals failing to S&R
![Page 33: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/33.jpg)
Chap 16: Evolution of Populations
Ex.- Darwin’s finches (each with diff. beak size)
Food shortage causes supply of small & medium-sized seeds to run low
Birds with beaks that enable them to open large seeds will have advantage
Big-beaked birds will have higher fitness
Average beak size in population would probably increase
![Page 34: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/34.jpg)
Directional Selection
Food becomes scarce.
Key
Low mortality, high fitness
High mortality, low fitness
![Page 35: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/35.jpg)
Chap 16: Evolution of Populations
Stabilizing Selection
Stabilizing selection- when individuals near center of curve have higher fitness than individuals at either end
Keeps center of curve at current position, but narrows the overall graph
![Page 36: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/36.jpg)
Chap 16: Evolution of Populations
Ex.- human birth weight
Babies born much smaller than average less likely to be healthy, less likely to survive
Babies much larger than average are likely to have difficulty being born
Fitness of larger or smaller individuals is lower than that of average-sized individuals
![Page 37: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/37.jpg)
KeyP
erce
nta
ge
of
Po
pu
lati
on
Birth Weight
Selection against both extremes keep curve narrow and in same
place.
Low mortality, high fitness
High mortality, low fitness
Stabilizing Selection
![Page 38: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/38.jpg)
Chap 16: Evolution of Populations
Disruptive Selection
Disruptive selection- when individuals at upper & lower ends of curve have higher fitness than individuals near middle
Selection acts against intermediate phenotype
If selection pressure is strong and lasts long enough, two distinct phenotypes produced
![Page 39: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/39.jpg)
Chap 16: Evolution of Populations
Ex.- If population of birds lives in area where medium-sized seeds become less common
Large and small-sized seeds become more common
Birds with unusually small or large beaks would have higher fitness
Population might split into large seed eaters and small seed eaters
![Page 40: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/40.jpg)
Disruptive Selection
Largest and smallest seeds become more common.N
um
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of
Bir
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in P
op
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Beak Size
Population splits into two subgroups specializing in different seeds.
Beak Size
Nu
mb
er o
f B
ird
sin
Po
pu
lati
on
KeyLow mortality, high fitness
High mortality, low fitness
![Page 41: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/41.jpg)
Chap 16: Evolution of Populations
Process of Speciation
How do changes caused by natural selection and genetic drift lead to formation of new species?
Gene pools of two populations must become separated for them to become new species
Biological Species Concept
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Chap 16: Evolution of Populations
Isolating Mechanisms
As new species evolve, populations become reproductively isolated from each other
When members of two populations can no longer interbreed and produce fertile offspring- reproductive isolation
Populations have separate gene pools
Respond to N.S. or genetic drift differently
![Page 43: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/43.jpg)
Chap 16: Evolution of Populations
Reproductive isolation can develop in variety of ways, including:
- Behavioral isolation
- Geographic isolation
- Temporal isolation
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Chap 16: Evolution of Populations
Behavioral isolation
Occurs when two populations are capable of interbreeding, but have differences in courtship rituals or other reproductive behaviors
Ex.- bird species using different songs to attract mates
![Page 45: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/45.jpg)
Chap 16: Evolution of Populations
Geographic isolation
Two populations are separated by geographic barriers such as rivers, mountains, or bodies of water
Ex.- Two species of squirrel (Albert & Kaibab) formed after Colorado river cut the Grand Canyon
![Page 46: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/46.jpg)
Chap 16: Evolution of Populations
Does not guarantee formation of new species:
Barrier might be breached/broken down shortly
If two populations still can interbreed, no new species has formed
Also, geographic barriers can exist for some organisms, but not for others (birds can fly over a large river or mountain range)
![Page 47: Chap 16: Evolution of Populations Darwin never knew how heredity actually worked Biologists connected Mendel’s work to Darwin’s in the 1930’s Advances.](https://reader036.fdocuments.net/reader036/viewer/2022062519/5697bfb51a28abf838c9d754/html5/thumbnails/47.jpg)
Chap 16: Evolution of Populations
Temporal isolation
Two or more species reproduce at different times
Ex.- plants
Three plants all live in same forest, only release pollen on one day
Each releases pollen on different day
Impossible to pollinate one another
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Chap 17-4: Patterns of Evolution
Punctuated Equilibrium
Darwin felt that biological change needed to be slow and steady – idea known as gradualism
Fossil record confirms that some populations of organisms change gradually over time
Also evidence that this pattern does not always hold true
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Chap 17-4: Patterns of Evolution
Some species have changed little since they appeared in the fossil record
Much of the time these species are in a state of equilibrium
Every now and then, something upsets the equilibrium
Changes in populations then occur relatively rapidly
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Chap 17-4: Patterns of Evolution
Rapid evolution after long periods of stability can occur for several reasons:
- Small pop. isolated from larger pop.
- Small group migrates to new environment
- Mass extinctions open up niches
Term punctuated equilibrium used to describe pattern of long, stable periods interrupted by brief periods of rapid change
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