4.7 Article

Differential early-life survival underlies the adaptive significance of temperature-dependent sex determination in a long-lived reptile

Journal

FUNCTIONAL ECOLOGY
Volume 37, Issue 11, Pages 2895-2909

Publisher

WILEY
DOI: 10.1111/1365-2435.14420

Keywords

evolution; reptile; survival; temperature-dependent sex determination

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The study provides the first empirical support for the adaptive value of temperature-dependent sex determination (TSD) in crocodilians, showing that incubation temperature influences the annual survival of alligator hatchlings. This finding suggests that TSD has adaptive advantages in alligator populations.
Many ectotherms rely on temperature cues experienced during development to determine offspring sex. The first descriptions of temperature-dependent sex determination (TSD) were made over 50 years ago, yet an understanding of its adaptive significance remains elusive, especially in long-lived taxa.One novel hypothesis predicts that TSD should be evolutionarily favoured when two criteria are met-(a) incubation temperature influences annual juvenile survival and (b) sexes mature at different ages. Under these conditions, a sex-dependent effect of incubation temperature on offspring fitness arises through differences in age at sexual maturity, with the sex that matures later benefiting disproportionately from temperatures that promote juvenile survival.The American alligator (Alligator mississippiensis) serves as an insightful model in which to test this hypothesis, as males begin reproducing nearly a decade after females. Here, through a combination of artificial incubation experiments and mark-recapture approaches, we test the specific predictions of the survival-to-maturity hypothesis for the adaptive value of TSD by disentangling the effects of incubation temperature and sex on annual survival of alligator hatchlings across two geographically distinct sites.Hatchlings incubated at male-promoting temperatures (MPTs) consistently exhibited higher survival compared to those incubated at female-promoting temperatures. This pattern appears independent of hatchling sex, as females produced from hormone manipulation at MPT exhibit similar survival to their male counterparts.Additional experiments show that incubation temperature may affect early-life survival primarily by affecting the efficiency with which maternally transferred energy resources are used during development.Results from this study provide the first explicit empirical support for the adaptive value of TSD in a crocodilian and point to developmental energetics as a potential unifying mechanism underlying persistent survival consequences of incubation temperature.Read the free Plain Language Summary for this article on the Journal blog. Read the free Plain Language Summary for this article on the Journal blog.image

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