Measurement and modelling of primary sex ratios for species with temperature-dependent sex determination [RESEARCH ARTICLE]

Melanie D. Massey, Sarah M. Holt, Ronald J. Brooks, and Njal Rollinson For many oviparous animals, incubation temperature influences sex through temperature-dependent sex determination (TSD). Although climate change may skew sex ratios in species with TSD, few available methods predict sex under natural conditions, fewer still are based on mechanistic hypotheses of development, and field tests of existing methods are rare. We propose a new approach that calculates the probability of masculinization (PM) in natural nests. This approach subsumes the mechanistic hypotheses describing the outcome of TSD, by integrating embryonic development with the temperature-sex reaction norm. Further, we modify a commonly used method of sex ratio estimation, the Constant Temperature Equivalent (CTE), to provide quantitative estimates of sex ratios. We test our new approaches using snapping turtles (Chelydra serpentina). We experimentally manipulate nests in the field, and find that the PM method is better supported than the modified CTE, explaining 69% of the variation in sex ratios across 27 semi-natural nests. Next, we use the PM method to predict variation in sex ratios across 14 natural nests over two years, explaining 67% of the variation. We suggest that the PM approach is effective and broadly-applicable to species with TSD, particularly for forecasting how sex ratios may respond to climate change. Interestingly, we also found that the modified CTE explained up to 64% of variation in s...
Source: Journal of Experimental Biology - Category: Biology Authors: Tags: RESEARCH ARTICLE Source Type: research
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