The influence of female body size and shape on the trade-off between offspring number and offspring size in two viviparous snakes

The influence of female body size and shape on the trade-off between offspring number and offspring size in two viviparous snakes

Although the trade‐off between offspring size and the number of offspring is a critical component of life‐history theory, many empirical tests fail to show that such trade‐off exists. Although this may be due to statistical issues (i.e. failure to control for maternal body size), other complications...

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Bibliographic Details
Published in:Journal of zoology (1987) Vol. 295; no. 2; pp. 154 - 158
Main Authors: Ford, N. B., Seigel, R. A.
Format: Journal Article
Language:English
Published: London Blackwell Publishing Ltd 01-02-2015
Subjects:
allometry
Animal reproduction
body size
Morphology
reproductive trade-offs
snake
Snakes
viviparous
Online Access:Get full text
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Summary:Although the trade‐off between offspring size and the number of offspring is a critical component of life‐history theory, many empirical tests fail to show that such trade‐off exists. Although this may be due to statistical issues (i.e. failure to control for maternal body size), other complications such as female body shape may play a role as well. Here, we examined reproductive traits in two species of viviparous garter snakes with very different body morphologies (Thamnophis marcianus and T. proximus) to see how female body shape affects this trade‐off. In the more slender species (T. proximus), we found a strong, negative relationship between brood size and offspring size, with the effect most notable in smaller females. However, in the more robust snake (T. marcianus), there was no significant trade‐off seen in either the sample as a whole or for either larger or smaller females. Our data support earlier work on ectotherms, which indicates that body shape can act to constrain how offspring size and clutch or litter size are related.
Bibliography:istex:D918694BDF6DD0DBDA310CD1D292506497703793
ArticleID:JZO12180
Fisher College and Department of Biological Sciences at Towson University
ark:/67375/WNG-F6Z0HJD0-1
National Science Foundation Research Opportunity Award
ISSN:0952-8369
1469-7998
DOI:10.1111/jzo.12180