A dimensionless invariant for relative size at sex change in animals: explanation and implications

Recent comparative studies across sex-changing animals have found that the relative size and age at sex change are strikingly invariant. In particular, 91%-97% of the variation in size at sex change across species can be explained by the simple rule that individuals change sex when they reach 72% of...

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Bibliographic Details
Published inThe American naturalist Vol. 165; no. 5; p. 551
Main Authors Gardner, Andy, Allsop, David J, Charnov, Eric L, West, Stuart A
Format Journal Article
LanguageEnglish
Published United States 01.05.2005
Subjects
Age Factors
Animals
Biological Evolution
Body Size
Female
Male
Models, Biological
Reproduction
Sex Differentiation
Species Specificity
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Summary:Recent comparative studies across sex-changing animals have found that the relative size and age at sex change are strikingly invariant. In particular, 91%-97% of the variation in size at sex change across species can be explained by the simple rule that individuals change sex when they reach 72% of their maximum body size. However, this degree of invariance is surprising and has proved controversial. In particular, it is not clear why this result should hold, given that there is considerable biological variation across species in factors that can influence the evolutionarily stable timing of sex change. Our overall aim here is to explain this result and determine the implications for other life-history variables. Specifically, we use a combination of approaches to formalize and make explicit previous analytical theory in this area, examine the robustness of the empirical invariance result, and carry out sensitivity analyses to determine what the empirical data imply about the mean value and variation in several key life-history variables.
ISSN:1537-5323
DOI:10.1086/429526