Population viability at extreme sex-ratio skews produced by temperature-dependent sex determination
GC Hays, AD Mazaris… - Proceedings of the …, 2017 - royalsocietypublishing.org
Proceedings of the Royal Society B: Biological Sciences, 2017•royalsocietypublishing.org
For species with temperature-dependent sex determination (TSD) there is the fear that rising
temperatures may lead to single-sex populations and population extinction. We show that for
sea turtles, a major group exhibiting TSD, these concerns are currently unfounded but may
become important under extreme climate warming scenarios. We show how highly female-
biased sex ratios in developing eggs translate into much more balanced operational sex
ratios so that adult male numbers in populations around the world are unlikely to be limiting …
temperatures may lead to single-sex populations and population extinction. We show that for
sea turtles, a major group exhibiting TSD, these concerns are currently unfounded but may
become important under extreme climate warming scenarios. We show how highly female-
biased sex ratios in developing eggs translate into much more balanced operational sex
ratios so that adult male numbers in populations around the world are unlikely to be limiting …
For species with temperature-dependent sex determination (TSD) there is the fear that rising temperatures may lead to single-sex populations and population extinction. We show that for sea turtles, a major group exhibiting TSD, these concerns are currently unfounded but may become important under extreme climate warming scenarios. We show how highly female-biased sex ratios in developing eggs translate into much more balanced operational sex ratios so that adult male numbers in populations around the world are unlikely to be limiting. Rather than reducing population viability, female-biased offspring sex ratios may, to some extent, help population growth by increasing the number of breeding females and hence egg production. For rookeries across the world (n = 75 sites for seven species), we show that extreme female-biased hatchling sex ratios do not compromise population size and are the norm, with a tendency for populations to maximize the number of female hatchlings. Only at extremely high incubation temperature does high mortality within developing clutches threaten sea turtles. Our work shows how TSD itself is a robust strategy up to a point, but eventually high mortality and female-only hatchling production will cause extinction if incubation conditions warm considerably in the future.
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