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  E-mail Message: I thought you might be interested in this item at http://www.worldcat.org/oclc/119919086 Title: Heritable variation for sex ratio under environmental sex determination in the common snapping turtle (Chelydra serpentina). Publisher: ISBN/ISSN: 0016-6731 OCLC:119919086

  
  

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Heritable variation for sex ratio under environmental sex determination in the common snapping turtle (Chelydra serpentina).

Author:	FJ Janzen
Edition/Format:	Article : English
Publication:	Genetics, 1992 May; 131(1): 155-61
Database:	From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.
Summary:	The magnitude of quantitative genetic variation for primary sex ratio was measured in families extracted from a natural population of the common snapping turtle (Chelydra serpentina), which possesses temperature-dependent sex determination (TSD). Eggs were incubated at three temperatures that produced mixed sex ratios. This experimental design provided estimates of the heritability of sex ratio in multiple environments and a test of the hypothesis that genotype x environment (G x E) interactions may be maintaining genetic variation for sex ratio in this population of C. serpentina. Substantial quantitative genetic variation for primary sex ratio was detected in all experimental treatments. These results in conjunction with the occurrence of TSD in this species provide support for three critical assumptions of Fisher's theory for the microevolution of sex ratio. There were statistically significant effects of family and incubation temperature on sex ratio, but no significant interaction was observed. Estimates of the genetic correlations of sex ratio across environments were highly positive and essentially indistinguishable from + 1. These latter two findings suggest that G x E interaction is not the mechanism maintaining genetic variation for sex ratio in this system. Finally, although substantial heritable variation exists for primary sex ratio of C. serpentina under constant temperatures, estimates of the effective heritability of primary sex ratio in nature are approximately an order of magnitude smaller. Small effective heritability and a long generation time in C. serpentina imply that evolution of sex ratios would be slow even in response to strong selection by, among other potential agents, any rapid and/or substantial shifts in local temperatures, including those produced by changes in the global climate.  Read more...
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