FLUCTUATING SELECTION AND THE MAINTENANCE OF INDIVIDUAL AND SEX-SPECIFIC DIET SPECIALIZATION IN FREE-LIVING OYSTERCATCHERS
Fluctuating and disruptive selection are important mechanisms for maintaining intrapopulation trait variation. Nonetheless, few field studies quantify selection pressures over long periods and identify what causes them to fluctuate. Diet specialists in oystercatchers differ in short-term payoffs (in...
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| Veröffentlicht in: | Evolution 2010-03, Vol.64 (3), p.836-851 |
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| creator | Van De Pol, Martijn Brouwer, Lyanne Ens, Bruno J. Oosterbeek, Kees Tinbergen, Joost M. |
| description | Fluctuating and disruptive selection are important mechanisms for maintaining intrapopulation trait variation. Nonetheless, few field studies quantify selection pressures over long periods and identify what causes them to fluctuate. Diet specialists in oystercatchers differ in short-term payoffs (intake), but their long-term payoffs are hypothesized to be condition dependent. We test whether phenotypic selection on diet specialization fluctuates between years due to the frequency of specialists, competitor density, prey abundance, and environmental conditions. Short-term payoffs proved to be poor predictors of long-term fitness payoffs of specialization. Sex-differences in diet specialization were maintained by opposing directional fecundity and viability selection between the sexes. Contrasting other studies, selection on individual diet specialization was neither negative frequency- or density-dependent nor dependent on prey abundance. Notwithstanding, viability selection fluctuated strongly (stabilizing↔disruptive) over the 26-year study period: slightly favoring generalists in most years, but strongly disfavoring generalists in rare harsh winters, suggesting generalists cannot cope with extreme conditions. Although selection fluctuated, mean selection on specialists was weak, which can explain how individual specialization can persist over long periods. Because rare events can dramatically affect long-term selective landscapes, more care should be taken to match the timescale of evolutionary studies to the temporal variability of critical environmental conditions. |
| doi_str_mv | 10.1111/j.1558-5646.2009.00859.x |
| format | Article |
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Nonetheless, few field studies quantify selection pressures over long periods and identify what causes them to fluctuate. Diet specialists in oystercatchers differ in short-term payoffs (intake), but their long-term payoffs are hypothesized to be condition dependent. We test whether phenotypic selection on diet specialization fluctuates between years due to the frequency of specialists, competitor density, prey abundance, and environmental conditions. Short-term payoffs proved to be poor predictors of long-term fitness payoffs of specialization. Sex-differences in diet specialization were maintained by opposing directional fecundity and viability selection between the sexes. Contrasting other studies, selection on individual diet specialization was neither negative frequency- or density-dependent nor dependent on prey abundance. Notwithstanding, viability selection fluctuated strongly (stabilizing↔disruptive) over the 26-year study period: slightly favoring generalists in most years, but strongly disfavoring generalists in rare harsh winters, suggesting generalists cannot cope with extreme conditions. Although selection fluctuated, mean selection on specialists was weak, which can explain how individual specialization can persist over long periods. Because rare events can dramatically affect long-term selective landscapes, more care should be taken to match the timescale of evolutionary studies to the temporal variability of critical environmental conditions.</description><identifier>ISSN: 0014-3820</identifier><identifier>EISSN: 1558-5646</identifier><identifier>DOI: 10.1111/j.1558-5646.2009.00859.x</identifier><identifier>PMID: 19804401</identifier><language>eng</language><publisher>Malden, USA: Blackwell Publishing Inc</publisher><subject>Animal behavior ; Animals ; Annual fitness ; Biological Evolution ; Birds ; Charadriiformes - anatomy & histology ; Charadriiformes - genetics ; Charadriiformes - physiology ; cultural evolution ; Diet ; Ecological competition ; Ecological genetics ; Ecology ; Ecosystem ; environmental variability ; Evolution ; Evolution & development ; Fecundity ; Female ; Fertility ; Genetic Fitness ; Genotype & phenotype ; Male ; Models, Genetic ; nonlinear selection gradient ; Ornithology ; Phenotype ; response to selection ; Selection, Genetic ; Sex Characteristics ; Sexes ; Shellfish ; Time Factors ; trophic polymorphism ; Viability ; Worms</subject><ispartof>Evolution, 2010-03, Vol.64 (3), p.836-851</ispartof><rights>2010 Society for the Study of Evolution</rights><rights>2009 The Author(s). 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Nonetheless, few field studies quantify selection pressures over long periods and identify what causes them to fluctuate. Diet specialists in oystercatchers differ in short-term payoffs (intake), but their long-term payoffs are hypothesized to be condition dependent. We test whether phenotypic selection on diet specialization fluctuates between years due to the frequency of specialists, competitor density, prey abundance, and environmental conditions. Short-term payoffs proved to be poor predictors of long-term fitness payoffs of specialization. Sex-differences in diet specialization were maintained by opposing directional fecundity and viability selection between the sexes. Contrasting other studies, selection on individual diet specialization was neither negative frequency- or density-dependent nor dependent on prey abundance. Notwithstanding, viability selection fluctuated strongly (stabilizing↔disruptive) over the 26-year study period: slightly favoring generalists in most years, but strongly disfavoring generalists in rare harsh winters, suggesting generalists cannot cope with extreme conditions. Although selection fluctuated, mean selection on specialists was weak, which can explain how individual specialization can persist over long periods. 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Nonetheless, few field studies quantify selection pressures over long periods and identify what causes them to fluctuate. Diet specialists in oystercatchers differ in short-term payoffs (intake), but their long-term payoffs are hypothesized to be condition dependent. We test whether phenotypic selection on diet specialization fluctuates between years due to the frequency of specialists, competitor density, prey abundance, and environmental conditions. Short-term payoffs proved to be poor predictors of long-term fitness payoffs of specialization. Sex-differences in diet specialization were maintained by opposing directional fecundity and viability selection between the sexes. Contrasting other studies, selection on individual diet specialization was neither negative frequency- or density-dependent nor dependent on prey abundance. Notwithstanding, viability selection fluctuated strongly (stabilizing↔disruptive) over the 26-year study period: slightly favoring generalists in most years, but strongly disfavoring generalists in rare harsh winters, suggesting generalists cannot cope with extreme conditions. Although selection fluctuated, mean selection on specialists was weak, which can explain how individual specialization can persist over long periods. Because rare events can dramatically affect long-term selective landscapes, more care should be taken to match the timescale of evolutionary studies to the temporal variability of critical environmental conditions.</abstract><cop>Malden, USA</cop><pub>Blackwell Publishing Inc</pub><pmid>19804401</pmid><doi>10.1111/j.1558-5646.2009.00859.x</doi><tpages>16</tpages><oa>free_for_read</oa></addata></record> |
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| source | MEDLINE; Access via Wiley Online Library; Oxford University Press Journals All Titles (1996-Current); EZB-FREE-00999 freely available EZB journals; JSTOR |
| subjects | Animal behavior Animals Annual fitness Biological Evolution Birds Charadriiformes - anatomy & histology Charadriiformes - genetics Charadriiformes - physiology cultural evolution Diet Ecological competition Ecological genetics Ecology Ecosystem environmental variability Evolution Evolution & development Fecundity Female Fertility Genetic Fitness Genotype & phenotype Male Models, Genetic nonlinear selection gradient Ornithology Phenotype response to selection Selection, Genetic Sex Characteristics Sexes Shellfish Time Factors trophic polymorphism Viability Worms |
| title | FLUCTUATING SELECTION AND THE MAINTENANCE OF INDIVIDUAL AND SEX-SPECIFIC DIET SPECIALIZATION IN FREE-LIVING OYSTERCATCHERS |
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