ch 23 – evolution of populations. overview: the smallest unit of evolution one common...
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![Page 1: Ch 23 – Evolution of Populations. Overview: The Smallest Unit of Evolution One common misconception about evolution is that individual organisms evolve,](https://reader036.vdocuments.net/reader036/viewer/2022062517/56649e865503460f94b892a0/html5/thumbnails/1.jpg)
Ch 23 – Evolution of Populations
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Overview: The Smallest Unit of Evolution
• One common misconception about evolution is that individual organisms evolve, in the Darwinian sense, during their lifetimes
• Natural selection acts on individuals, but populations evolve
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Concept 23.1: Population genetics provides a foundation for studying evolution
• Microevolution– Is change in the genetic makeup of a
population from generation to generation
Figure 23.1
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The Modern Synthesis
• Population genetics– Is the study of how populations change
genetically over time– Reconciled Darwin’s and Mendel’s ideas
What are discrete characters? What are quantitative characters?
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Gene Pools and Allele Frequencies
• A population– Is a localized group of individuals that are capable
of interbreeding and producing fertile offspring
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• The gene pool– Is the total aggregate of genes in a
population at any one time– Consists of all gene loci in all individuals of
the population
↑ fixed alleles ↓diversity
What is a fixed allele?
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The Hardy-Weinberg Theorem
• The Hardy-Weinberg theorem– Describes a population that is not evolving
– States that the frequencies of alleles and genotypes in a population’s gene pool remain constant from generation to generation provided that only Mendelian segregation and recombination of alleles are at work
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Hardy-Weinberg Equilibrium
• Hardy-Weinberg equilibrium– Describes a population in which random
mating occurs– Describes a population where allele
frequencies do not change
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• The five conditions for non-evolving populations are rarely met in nature
– Extremely large population size– No gene flow– No mutations– Random mating– No natural selection
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Conditions for Hardy-Weinberg Equilibrium
• The Hardy-Weinberg theorem– Describes a hypothetical population
• In real populations– Allele and genotype frequencies do change
over time
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Equation
p2 + 2pq + q2 = 1 Let p = the frequency of A, the dominant allele and q = the frequency of a, the recessive allele
So, p2 = AA, q2 = aa, 2pq = Aa
If we know the frequency of one of the alleles, we can calculate the frequency of the other allele:
p + q = 1
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Concept 23.2: Mutation and sexual recombination produce the variation that makes evolution possible
• Two processes, mutation and sexual recombination– Produce the variation in gene pools that
contributes to differences among individuals
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Mutation
• Mutations– Are changes in the nucleotide sequence of DNA
– Cause new genes and alleles to arise
Figure 23.6
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Point Mutations
• A point mutation– Is a change in one base in a gene– Can have a significant impact on phenotype– Is usually harmless, but may have an
adaptive impact
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Mutations That Alter Gene Number or Sequence
• Chromosomal mutations that affect many loci– Are almost certain to be harmful– May be neutral and even beneficial
What is translocation? How is it beneficial?
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• Gene duplication– Duplicates chromosome segments
How does this influence evolution?
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Sexual Recombination
• In sexually reproducing populations, sexual recombination– Is far more important than mutation in
producing the genetic differences that make adaptation possible
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Concept 23.3: Natural selection, genetic drift, and gene flow can alter a population’s genetic composition
• Three major factors alter allele frequencies and bring about most evolutionary change– Natural selection– Genetic drift– Gene flow
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Natural Selection
• Differential success in reproduction– Results in certain alleles being passed to the
next generation in greater proportions
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Genetic Drift
• Statistically, the smaller a sample– The greater the chance of deviation from a
predicted result
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• Genetic drift– Describes how allele frequencies can
fluctuate unpredictably from one generation to the next
– Tends to reduce genetic variation
Figure 23.7
CRCR
CRCW
CRCR
CWCW CRCR
CRCW
CRCW
CRCWCRCR
CRCR
Only 5 of10 plantsleaveoffspring
CWCW CRCR
CRCW
CRCR CWCW
CRCW
CWCW CRCR
CRCW CRCW
Only 2 of10 plantsleaveoffspring
CRCR
CRCR CRCR
CRCRCRCR
CRCR
CRCR
CRCR
CRCRCRCR
Generation 2p = 0.5q = 0.5
Generation 3p = 1.0q = 0.0
Generation 1p (frequency of CR) = 0.7q (frequency of CW) = 0.3
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Gene Flow• Gene flow– Causes a population to gain or lose alleles– Results from the movement of fertile individuals
or gametes– Tends to reduce differences between
populations over time
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The Bottleneck Effect
• In the bottleneck effect– A sudden change in the environment may
drastically reduce the size of a population– The gene pool may no longer be reflective of
the original population’s gene pool
Originalpopulation
Bottleneckingevent
SurvivingpopulationFigure 23.8 A
(a) Shaking just a few marbles through the narrow neck of a bottle is analogous to a drastic reduction in the size of a population after some environmental disaster. By chance, blue marbles are over-represented in the new population and gold marbles are absent.
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• Understanding the bottleneck effect– Can increase understanding of how human
activity affects other species
Figure 23.8 B
(b) Similarly, bottlenecking a population of organisms tends to reduce genetic variation, as in these northern elephant seals in California that were once hunted nearly to extinction.
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The Founder Effect
• The founder effect– Occurs when a few individuals become
isolated from a larger population– Can affect allele frequencies in a population
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Concept 23.4: Natural selection is the primary mechanism of adaptive evolution
• Natural selection– Accumulates and maintains favorable
genotypes in a population– Variations that are heritable are the raw
material for natural selection
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Genetic Variation
• Genetic variation– Occurs in individuals in populations of all
species– Is not always heritable
Figure 23.9 A, B
(a) Map butterflies thatemerge in spring:orange and brown
(b) Map butterflies thatemerge in late summer:black and white
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Variation Within a Population
• Both discrete and quantitative characters– Contribute to variation within a population
• Discrete characters– Can be classified on an either-or basis
• Quantitative characters– Vary along a continuum within a population
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Variation Between Populations
• Most species exhibit geographic variation– Differences between gene pools of separate
populations or population subgroups
1 2.4 3.14 5.18 6 7.15
XX1913.1710.169.128.11
1 2.19 3.8 4.16 5.14 6.7
XX15.1813.1711.129.10Figure 23.10
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• Some examples of geographic variation occur as a cline, which is a graded change in a trait along a geographic axis
Figure 23.11
Mea
n he
ight
(cm
)A
titud
e (m
)
Heights of yarrow plants grown in common garden
Seed collection sites
Sierra NevadaRange
Great BasinPlateau
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Evolutionary Fitness
• The phrases “struggle for existence” and “survival of the fittest”– Are commonly used to describe natural
selection– Can be misleading
• Reproductive success– Is generally more subtle and depends on many
factors
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• Fitness– Is the contribution an individual makes to the
gene pool of the next generation, relative to the contributions of other individuals
• Relative fitness– Is the contribution of a genotype to the next
generation as compared to the contributions of alternative genotypes for the same locus
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Directional, Disruptive, and Stabilizing Selection
• Selection– Favors certain genotypes by acting on the
phenotypes of certain organisms
• Three modes of selection are– Directional– Disruptive– Stabilizing
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• Directional selection– Favors individuals at one end of the phenotypic
range
• Disruptive selection– Favors individuals at both extremes of the
phenotypic range
• Stabilizing selection– Favors intermediate variants and acts against
extreme phenotypes
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• The three modes of selection
Fig 23.12 A–C
(a) Directional selection shifts the overallmakeup of the population by favoringvariants at one extreme of thedistribution. In this case, darker mice arefavored because they live among darkrocks and a darker fur color conceals themfrom predators.
(b) Disruptive selection favors variantsat both ends of the distribution. Thesemice have colonized a patchy habitatmade up of light and dark rocks, with theresult that mice of an intermediate color areat a disadvantage.
(c) Stabilizing selection removesextreme variants from the populationand preserves intermediate types. Ifthe environment consists of rocks ofan intermediate color, both light anddark mice will be selected against.
Phenotypes (fur color)
Original population
Originalpopulation
Evolvedpopulation
Fre
quen
cy o
f in
divi
dual
s
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The Preservation of Genetic Variation
• Various mechanisms help to preserve genetic variation in a population
• Diploidy– Maintains genetic variation in the form of
hidden recessive alleles
• Balancing selection– Occurs when natural selection maintains
stable frequencies of two or more phenotypic forms in a population
– Leads to a state called balanced polymorphism
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Heterozygote Advantage
• Some individuals who are heterozygous at a particular locus– Have greater fitness than homozygotes
• Natural selection– Will tend to maintain two or more alleles at that
locus
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• The sickle-cell allele– Causes mutations in hemoglobin but also
confers malaria resistance– Exemplifies the heterozygote advantage
Figure 23.13
Frequencies of thesickle-cell allele
0–2.5%2.5–5.0%
5.0–7.5%
7.5–10.0%10.0–12.5%
>12.5%
Distribution ofmalaria caused byPlasmodium falciparum(a protozoan)
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Sexual Selection
• Sexual selection– Is natural selection for mating success– Can result in sexual dimorphism, marked
differences between the sexes in secondary sexual characteristics
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• Intrasexual selection– Is a direct competition among individuals of
one sex for mates of the opposite sex
• Intersexual selection– Occurs when individuals of one sex (usually
females) are choosy in selecting their mates from individuals of the other sex
– May depend on the showiness of the male’s appearance
Figure 23.15
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Why Natural Selection Cannot Fashion Perfect Organisms
• Evolution is limited by historical constraints
• Adaptations are often compromises
• Chance and natural selection interact
• Selection can only edit existing variations