Inheritance of nesting behaviour across natural environmental variation in a turtle with temperature-dependent sex determination
Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in respons...
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| Published in | Proceedings of the Royal Society. B, Biological sciences Vol. 277; no. 1685; pp. 1219 - 1226 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
The Royal Society
22.04.2010
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0962-8452 1471-2954 1471-2945 1471-2954 |
| DOI | 10.1098/rspb.2009.1883 |
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| Abstract | Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in response to sex-ratio selection, components of nesting behaviour must be heritable. We estimated the field heritability of two key components of nesting behaviour in a population of painted turtles (Chrysemys picta) with temperature-dependent sex determination by applying the ‘animal model’ to a pedigree reconstructed from genotype data. We obtained estimates of low to non-detectable heritability using repeated records across all environments. We then determined environment-specific heritability by grouping records with similar temperatures for the winter preceding the nesting season, a variable known to be highly associated with our two traits of interest, nest vegetation cover and Julian date of nesting. The heritability estimates of nest vegetation cover and Julian date of nesting were qualitatively highest and significant, or nearly so, after hot winters. Additive genetic variance for these traits was not detectable after cold winters. Our analysis suggests that the potential for evolutionary change of nesting behaviour may be dependent on the thermal conditions of the preceding winter, a season that is predicted to be especially subject to climate change. |
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| AbstractList | Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in response to sex-ratio selection, components of nesting behaviour must be heritable. We estimated the field heritability of two key components of nesting behaviour in a population of painted turtles (Chrysemys picta) with temperature-dependent sex determination by applying the ‘animal model’ to a pedigree reconstructed from genotype data. We obtained estimates of low to non-detectable heritability using repeated records across all environments. We then determined environment-specific heritability by grouping records with similar temperatures for the winter preceding the nesting season, a variable known to be highly associated with our two traits of interest, nest vegetation cover and Julian date of nesting. The heritability estimates of nest vegetation cover and Julian date of nesting were qualitatively highest and significant, or nearly so, after hot winters. Additive genetic variance for these traits was not detectable after cold winters. Our analysis suggests that the potential for evolutionary change of nesting behaviour may be dependent on the thermal conditions of the preceding winter, a season that is predicted to be especially subject to climate change. Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in response to sex-ratio selection, components of nesting behaviour must be heritable. We estimated the field heritability of two key components of nesting behaviour in a population of painted turtles (Chrysemys picta) with temperature-dependent sex determination by applying the 'animal model' to a pedigree reconstructed from genotype data. We obtained estimates of low to non-detectable heritability using repeated records across all environments. We then determined environment-specific heritability by grouping records with similar temperatures for the winter preceding the nesting season, a variable known to be highly associated with our two traits of interest, nest vegetation cover and Julian date of nesting. The heritability estimates of nest vegetation cover and Julian date of nesting were qualitatively highest and significant, or nearly so, after hot winters. Additive genetic variance for these traits was not detectable after cold winters. Our analysis suggests that the potential for evolutionary change of nesting behaviour may be dependent on the thermal conditions of the preceding winter, a season that is predicted to be especially subject to climate change.Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in response to sex-ratio selection, components of nesting behaviour must be heritable. We estimated the field heritability of two key components of nesting behaviour in a population of painted turtles (Chrysemys picta) with temperature-dependent sex determination by applying the 'animal model' to a pedigree reconstructed from genotype data. We obtained estimates of low to non-detectable heritability using repeated records across all environments. We then determined environment-specific heritability by grouping records with similar temperatures for the winter preceding the nesting season, a variable known to be highly associated with our two traits of interest, nest vegetation cover and Julian date of nesting. The heritability estimates of nest vegetation cover and Julian date of nesting were qualitatively highest and significant, or nearly so, after hot winters. Additive genetic variance for these traits was not detectable after cold winters. Our analysis suggests that the potential for evolutionary change of nesting behaviour may be dependent on the thermal conditions of the preceding winter, a season that is predicted to be especially subject to climate change. Nesting behaviour is critical for reproductive success in oviparous organisms with no parental care. In organisms where sex is determined by incubation temperature, nesting behaviour may be a prime target of selection in response to unbalanced sex ratios. To produce an evolutionary change in response to sex-ratio selection, components of nesting behaviour must be heritable. We estimated the field heritability of two key components of nesting behaviour in a population of painted turtles ( Chrysemys picta ) with temperature-dependent sex determination by applying the ‘animal model’ to a pedigree reconstructed from genotype data. We obtained estimates of low to non-detectable heritability using repeated records across all environments. We then determined environment-specific heritability by grouping records with similar temperatures for the winter preceding the nesting season, a variable known to be highly associated with our two traits of interest, nest vegetation cover and Julian date of nesting. The heritability estimates of nest vegetation cover and Julian date of nesting were qualitatively highest and significant, or nearly so, after hot winters. Additive genetic variance for these traits was not detectable after cold winters. Our analysis suggests that the potential for evolutionary change of nesting behaviour may be dependent on the thermal conditions of the preceding winter, a season that is predicted to be especially subject to climate change. |
| Author | Bowden, Rachel M. Gonzalez, Julie E. McGaugh, Suzanne E. Schwanz, Lisa E. Janzen, Fredric J. |
| AuthorAffiliation | 2 School of Marine and Tropical Biology , James Cook University , Townsville, Queensland 4811 , Australia 4 Des Moines Area Community College , Ankeny Campus Building 4 Room 11A, Ankeny, IA 50023-3993 , USA 3 School of Biological Sciences , Illinois State University , Campus Box 4120, Normal, IL 61790 , USA 1 Department of Ecology, Evolution, and Organismal Biology , Iowa State University , 251 Bessey Hall, Ames, IA 50011 , USA |
| AuthorAffiliation_xml | – name: 4 Des Moines Area Community College , Ankeny Campus Building 4 Room 11A, Ankeny, IA 50023-3993 , USA – name: 1 Department of Ecology, Evolution, and Organismal Biology , Iowa State University , 251 Bessey Hall, Ames, IA 50011 , USA – name: 3 School of Biological Sciences , Illinois State University , Campus Box 4120, Normal, IL 61790 , USA – name: 2 School of Marine and Tropical Biology , James Cook University , Townsville, Queensland 4811 , Australia |
| Author_xml | – sequence: 1 givenname: Suzanne E. surname: McGaugh fullname: McGaugh, Suzanne E. email: suzanne.mcgaugh@duke.edu organization: Department of Ecology, Evolution, and Organismal Biology, Iowa State University, 251 Bessey Hall, Ames, IA 50011, USA – sequence: 2 givenname: Lisa E. surname: Schwanz fullname: Schwanz, Lisa E. organization: School of Marine and Tropical Biology, James Cook University, Townsville, Queensland 4811, Australia – sequence: 3 givenname: Rachel M. surname: Bowden fullname: Bowden, Rachel M. organization: Department of Ecology, Evolution, and Organismal Biology, Iowa State University, 251 Bessey Hall, Ames, IA 50011, USA – sequence: 4 givenname: Julie E. surname: Gonzalez fullname: Gonzalez, Julie E. organization: Department of Ecology, Evolution, and Organismal Biology, Iowa State University, 251 Bessey Hall, Ames, IA 50011, USA – sequence: 5 givenname: Fredric J. surname: Janzen fullname: Janzen, Fredric J. organization: Department of Ecology, Evolution, and Organismal Biology, Iowa State University, 251 Bessey Hall, Ames, IA 50011, USA |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/20018783$$D View this record in MEDLINE/PubMed |
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| Title | Inheritance of nesting behaviour across natural environmental variation in a turtle with temperature-dependent sex determination |
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