Jacques‐Olivier Laloë scite author profile

ResearchCite this article: Hays GC, Mazaris AD, Schofield G, Laloë J-O. 2017 Population viability at extreme sex-ratio skews produced by temperature-dependent sex determination. 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, femalebiased 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 ¼ 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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Effects of rising temperature on the viability of an important sea turtle rookery

Laloë

Cozens²,

Renom³

et al. 2014

Nature Clim Change

112

121

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Sand temperatures for nesting sea turtles in the Caribbean: Implications for hatchling sex ratios in the face of climate change

Laloë

Esteban

Berkel³

et al. 2016

Journal of Experimental Marine Biology and Ecology

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Highlights  Mean sand temperatures at nest depths were 31.0 °C, ranging from 29.1 °C to 33.3 °C  Rainfall and spring tides had important cooling effects on incubation temperatures  Sex ratios of 3 species of sea turtle were female-biased during the past century  Rising air temperatures will exacerbate the female skew in future populations  Management strategies will be necessary to prevent localised extinction

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Climate change and temperature‐linked hatchling mortality at a globally important sea turtle nesting site

Laloë

Cozens²,

Renom³

et al. 2017

Global Change Biology

102

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The study of temperature-dependent sex determination (TSD) in vertebrates has attracted major scientific interest. Recently, concerns for species with TSD in a warming world have increased because imbalanced sex ratios could potentially threaten population viability. In contrast, relatively little attention has been given to the direct effects of increased temperatures on successful embryonic development. Using 6603 days of sand temperature data recorded across 6 years at a globally important loggerhead sea turtle rookery-the Cape Verde Islands-we show the effects of warming incubation temperatures on the survival of hatchlings in nests. Incorporating published data (n = 110 data points for three species across 12 sites globally), we show the generality of relationships between hatchling mortality and incubation temperature and hence the broad applicability of our findings to sea turtles in general. We use a mechanistic approach supplemented by empirical data to consider the linked effects of warming temperatures on hatchling output and on sex ratios for these species that exhibit TSD. Our results show that higher temperatures increase the natural growth rate of the population as more females are produced. As a result, we project that numbers of nests at this globally important site will increase by approximately 30% by the year 2100. However, as incubation temperatures near lethal levels, the natural growth rate of the population decreases and the long-term survival of this turtle population is threatened. Our results highlight concerns for species with TSD in a warming world and underline the need for research to extend from a focus on temperature-dependent sex determination to a focus on temperature-linked hatchling mortalities.

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