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Published byCecily Harper Modified over 9 years ago
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Sexual selection underlies the evolution of male competition and female choice. In many species, males and females are similar in appearance. How do ecological factors contribute to differences among sexes?
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Mating systems Monogamy - 1 male, 1 female mate guarding mate assistance female enforced Polygyny - 1 male, >1 female resource defense female defense scramble competition explosive breeding assemblage lek Polyandry - 1 female, >1 male male defense resource defense Promiscuity
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Sexual selection theory and coupled with low parental investment of males suggest that polygynous mating systems should be most common. Why are males monogamous?
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Resource-based Mating Systems Emlen and Oring (1977) - the ecology of an organism may not permit males to have more than one partner. Females widely distributed and males cannot monopolize them. Females may mate with another male so monogamy may serve to guard the female. If males help rear young, fitness increases through increased young survival. The evolution mating systems is driven by the distribution of resources in the environment for both the male and the female. From Sinervo, UCSC
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Social monogamy relatively rare in mammals but common in birds. Eggs develop internally in mammals, externally in birds. Differences in constraints and costs between sexes in parental care.
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Mating systems in birds: Monogamy (pair bond between 2 individuals) parental care shared approx. 92% of all bird species Polygyny (male mates with several females) parental care usually by female approx. 2% of all birds Polyandry (female associates with several males) parental care typically by males fewer than 1% of all birds Promiscuity (indiscriminant sexual relationships) about 6% of all birds
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Monogamy: Pair bonds may last for a single breeding attempt, a breeding season, or many breeding seasons Occurs when: Male participation is essential for successfully raising young Males cannot monopolize resources necessary for supporting extra mates
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snow bunting
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Polygyny: Some males in a population regularly have two or more mates Why should a female pair with an already mated male while there are still unmated males available?
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pied flycatchers
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Polygyny Threshold Model: Gordon Orians (1969) Predictions - A male's territory quality will be correlated with his mating success Polygyny should be more common in patchy environments (where there is more variation in territory quality) fitness resourse defense polygyny
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Polygyny Threshold Model: Gordon Orians (1969) Predictions - A male's territory quality will be correlated with his mating success fitness “ideal free distribution”
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Polygyny Threshold Model: Gordon Orians (1969) Predictions - A male's territory quality will be correlated with his mating success fitness “ideal free distribution”
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Polygyny Threshold Model: Gordon Orians (1969) Predictions - A male's territory quality will be correlated with his mating success fitness “ideal free distribution”
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Polygyny (non-resource based): female defense scramble competition explosive breeding assemblage lek Males compete for access to mates. Females get only sperm from males (they raise young elsewhere unaided by males) In leks, males display 'status' in communal displays & females choose among males. Much variation in male mating success (one or a few males copulate with many females; other males with none).
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The sons of successful males are more likely to be successful themselves.
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What conditions favor the evolution of leks? 'hot spots' - males gather at sites where females are more likely to congregate reduced predation greater resources (undefendable) amplify sexually selected characteristics 'hot shots' - females prefer to choose mates from aggregations of males (i.e., group displays facilitate comparisons).
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The Lek Paradox Since females usually mate with one male, why do other males bother to come to the lek at all? With one male getting most matings, why is there still variance in traits?
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Polyandry: rare (sandpipers and jacanas, rhea) typically involves sex-role reversal (females larger & more brightly colored) males incubate eggs & care for young number of clutches may be limiting factor (rather than size of clutches)
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Polyandry: 1. females that abandon nests can lay more clutches. 2. males care for clutches (alone), have more nestlings survive. 3. females that defended resource- based territories attracted more males and have more offspring
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Extra-pair copulations (EPCs) Occur in monogamous species, polygynous species, & polyandrous species In many monogamous songbirds, the percentage of extra-pair young has been found to be about 10 - 25%. (as high as 80%)
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Gibbs, Weatherhead and colleagues, 1990, Science
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Benefits of EPCs for males: Increased fitness Possible future mate acquisition Insurance against mate's infertility
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Benefits of EPCs for females: Fertility insurance Genetically diverse young Improved genetic quality of young Access to resources
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Not all individuals pursue EPCs Possible costs for males: Sperm depletion & ejaculate production costs Increased risk of cuckoldry Reduction in parental care Increased likelihood of “divorce”
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Not all individuals pursue EPCs Possible costs for females: Male retaliation Risk of injury Harassment from extra-pair (or potential extra- pair) males
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By mating multiply, the female not only gets offspring that might be of superior genetic quality, but she also gets offspring that are quite variable. Increased genetic diversity of offspring might be favored by selection. (particularly in a variable environment) This explanation for multiple paternity in females, is the same argument regarding the evolution of sex.
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