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Презентация была опубликована 9 лет назад пользователемАлина Бобынина
1 Sexual selection
2 Sexual dimorphism is very common in nature
3 What is sexual selection?
4 What is sexual selection? Natural Selection: Differential reproductive success due to variation among individuals in survival and reproduction.
5 What is sexual selection? Darwin (1871) defined sexual selection as: Differential reproductive success due to variation among individuals in success at getting mates.
6 What is sexual selection? Darwin (1871) defined sexual selection as: Differential reproductive success due to variation among individuals in success at getting mates. sexual selection refers to one component of fitness: mating success. Fitness = Viability +Fecundity +Longevity +Mating success
7 What is sexual selection? Fitness = Viability +Fecundity +Longevity +Mating success
8 What is sexual selection? Fitness = Viability +Fecundity +Longevity +Mating success trade-offs between fitness components may occur!
9 What is sexual selection? Fitness = Viability +Fecundity +Longevity +Mating success trade-offs between fitness components may occur! a trait improving mating success may increase total fitness yet reduce viability!
10 If sexual selection is indeed the explanation for sexual dimorphism, then it will have to act on sexes differently….. And it does! Sexual reproduction creates different selection pressures for males and females. How?
11 If sexual selection is indeed the explanation for sexual dimorphism, then it will have to act on sexes differently….. And it does! Sexual reproduction creates different selection pressures for males and females. Through asymmetric parental investment!
12 What is parental investment? Energy and time expended in either or both: -constructing an offspring -caring for it.
13 What is parental investment? Energy and time expended in either or both: -constructing an offspring -caring for it. Producing eggs (or pregnancies) are more expensive than ejaculates.
14 What is parental investment? Energy and time expended in either or both: -constructing an offspring -caring for it. Producing eggs (or pregnancies) are more expensive than ejaculates. In more than 90% of mammal species, females provide substantial parental care and males provide little to none.
15 What acts to limit the lifetime reproductive success of males and females? females: limited by no. of eggs and/or pregnancies
16 What acts to limit the lifetime reproductive success of males and females? females: limited by no. of eggs and/or pregnancies males: limited by no. of females mated
17 What acts to limit the lifetime reproductive success of males and females? females: limited by no. of eggs and/or pregnancies males: limited by no. of females mated (access to mates) This sets up a conflict = sexual selection. To understand sexual selection we must quantify the relationship between number of mates and reproductive success for both males and females
18 Sexual selection in rough-skinned newts
20 Access to females increases reproductive success in males
21 What does this mean? Heritable traits associated with mating success will become common in males
22 What does this mean? Heritable traits associated with mating success will become common in males tall crests that appear during breeding season
23 What does this mean? Heritable traits associated with mating success will become common in males Heritable traits that are not associated with mating success will tend to disappear from the population
24 Predictions: Based on Parental Investment: females: limited by no. of eggs and/or pregnancies males: limited by no. of mates Members of the sex subject to strong sexual selection will be competitive. Members of the sex subject to weaker sexual selection will be choosy.
25 Predictions: 1. Males should be competitive
26 Predictions: 1. Males should be competitive they should compete among themselves for access to females.
27 Predictions: 1. Males should be competitive they should compete among themselves for access to females. this is male-male competition or intrasexual selection.
28 Predictions: 1. Males should be competitive they should compete among themselves for access to females. this is male-male competition or intrasexual selection. 2. Females should be choosy
29 Predictions: 1. Males should be competitive they should compete among themselves for access to females. this is male-male competition or intrasexual selection. 2. Females should be choosy since her investment is larger, she has more to lose by making a bad decision.
30 Predictions: 1. Males should be competitive they should compete among themselves for access to females. this is male-male competition or intrasexual selection. 2. Females should be choosy since her investment is larger, she has more to lose by making a bad decision. this is female choice or intersexual selection.
31 Intrasexual selection (male-male competition)
32 Intrasexual selection occurs when individual males can monopolize access to females. -Fight for control of mates and/or control of resources vital to mates
33 Intrasexual selection occurs when individual males can monopolize access to females. -Fight for control of mates and/or control of resources vital to mates Types of intra-sexual selection: 1.Combat 2.Sperm competition 3.Infanticide 4.Sneaky strategy
34 Intrasexual selection occurs when individual males can monopolize access to females. 1. Combat leads to sexual dimorphism in size
35 Intrasexual selection occurs when individual males can monopolize access to females. 1. Combat leads to sexual dimorphism in size Example: northern elephant seal. ~ 4,000 lbs ~1500 lbs
36 Intrasexual selection 1. Combat leads to sexual dimorphism in size Example: northern elephant seal. can also lead to the evolution of weaponry
37 Intrasexual selection 1. Combat leads to sexual dimorphism in size Example: northern elephant seal. can also lead to the evolution of weaponry Example: horns in ungulates and beetles.
38 Intrasexual selection 2. Sperm competition
39 Intrasexual selection 2. Sperm competition If a female mates with two or more males, the male whose sperm win the race to the eggs has higher reproductive success.
40 Intrasexual selection 2. Sperm competition If a female mates with two or more males, the male whose sperm win the race to the eggs has higher reproductive success. Ex. of traits needed to be successful Large ejaculates More and longer mating occurrences
41 Intrasexual selection 2. Sperm competition If a female mates with two or more males, the male whose sperm win the race to the eggs has higher reproductive success. Ex. of traits needed to be successful Large ejaculates More and longer mating occurrences Other examples include Sperm plugs, scooping out sperm, prolonged copulation, guarding of mate, applying hormones that reduce females attractiveness to other males.
42 Sperm competition in damselflies barbed horns on penis
43 Intrasexual selection 3. Infanticide Example: the African lion
44 Intrasexual selection 4. Alternative male reproductive strategies. Example: Sneaky strategy in Pacific salmon. Hooknoses (male- 18mon) Female Jacks (male-6mon)
45 Intersexual selection (female choice)
46 Intersexual selection occurs when males advertise for mates and females choose among different males. Elaborate courtship displays: singing, dancing, or showing off bright color leads to sexual dimorphism in ornate features
47 Intersexual selection occurs when males advertise for mates and females choose among different males. Elaborate courtship displays: singing, dancing, or showing off bright color leads to sexual dimorphism in ornate features Types of intersexual selection: 1. Direct Benefits -Acquisition of resources -Good genes 2. Pre-sensory Bias 3. Runaway selection
48 Intersexual selection 1. Direct benefits- Acquisition of resources females directly benefit from choosing certain males. Example: the common tern
49 Intersexual selection 1. Direct benefits- Acquisition of resources females directly benefit from choosing certain males. Example: the common tern females show a strong preference for males that bring a lot of food.
50 Intersexual selection 1. Direct benefits- Acquisition of resources females directly benefit from choosing certain males. Example: the common tern females show a strong preference for males that bring a lot of food. the amount of food a male brings during courtship is strongly correlated with the amount he brings to feed young.
51 1. Direct Benefits- Good genes
52 1. Direct Benefits- Good genes Example: call length of male gray tree frog
53 1. Direct Benefits- Good genes
54 1. Direct Benefits- Good genes females choose males with certain traits because they are honest indicators of overall genetic quality.
55 1. Direct Benefits- Good genes females choose males with certain traits because they are honest indicators of overall genetic quality. -calling in frogs -calling in birds -plumage color
56 2. Sensory bias
57 2. Sensory bias predicts that female preference for certain male traits evolves prior to the appearance of the male trait.
58 2. Sensory bias predicts that female preference for certain male traits evolves prior to the appearance of the male trait. females have a pre-existing sensory bias for the trait and males exploit this preference.
59 2. Sensory bias predicts that female preference for certain male traits evolves prior to the appearance of the male trait. females have a pre-existing sensory bias for the trait and males exploit this preference. Example: Water mite ( Neumania papillator )
60 Water mite (Neumania papillator)
61 3. Runaway selection
62 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait.
63 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait. Components needed: -Assortative mating ( individuals with similar genotypes and/ or phenotypes mate with one another more frequently than would be expected under a random mating pattern. ) -Heritable trait
64 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait. the simplest model assumes two genetic loci in linkage disequilibrium:
65 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait. the simplest model assumes two genetic loci in linkage disequilibrium: 1.a female preference gene (P locus) for the male trait.
66 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait. the simplest model assumes two genetic loci in linkage disequilibrium: 1. a female preference gene (P locus) for the male trait. 2. a gene for the male trait (T locus).
67 3. Runaway selection results from a genetic correlation between a male trait and female preference for that trait. the simplest model assumes two genetic loci in linkage disequilibrium: 1. a female preference gene (P locus) for the male trait. 2. a gene for the male trait (T locus). P T
68 Example: stalk-eyed flies
69 P T Example: stalk-eyed flies Preference Eye-stalk for long length eye-stalks
70 P T Example: stalk-eyed flies Preference Eye-stalk for long length eye-stalks mutation increasing eye-stalk length…
71 P T Example: stalk-eyed flies Preference Eye-stalk for long length eye-stalks mutation increasing eye-stalk length… …will be quickly driven to fixation by choice
72 P T Example: stalk-eyed flies Preference Eye-stalk for long length eye-stalks mutation increasing eye-stalk length… …will be quickly driven to fixation by choice … resulting in continued exaggeration of trait
73 preference for long eye-stalks Elongation of eye-stalks Runaway selection
74 Recap Sexual selection explains sexual dimorphism in nature Asymmetry in parental investment leads to differential selection pressures in males and females (sexual selection) Sex that invests less is more competitive, sex that invests more is choosy Sexual selection is more potent force of evolution in males than in females (with few exceptions like pipe-fishes) Intersexual selection (male-male competition): leads to combat, sperm Competition, infanticides, alternative male strategies Intrasexual selection (female choice): due to direct benefits like resources, good genes etc., female sensory bias, runaway selection
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