Abstract
Climate change threatens species with temperature-dependent sex determination as further warming could result in extremely biased sex ratios or offspring of only one sex. Among the possible adaptations of sea turtles to climate change, are behavioral responses toward nesting in cooler areas. We analyzed nesting patterns of East Pacific green turtles (Chelonia mydas) in Costa Rica to determine the occurrence of nest-site selection and how this could influence primary sex ratios (PSR). Green turtles exhibited nest-site repeatability. Nests placed by the same individual were generally closer (mean distance: 237.4 m) than other nests on the beach (mean distance: 411.0 m) and this repeatability was maintained in different nesting seasons. Additionally, turtles tended to place late nests closer to each other than their early nests, suggesting an adjusting nesting behavior throughout the nesting season. A great majority of nests were placed in the vegetation (80.9%) and within this zone, turtles preferred nesting under trees (78%) than in grass areas (28%), where temperatures were cooler and PSR were less female biased. Mean nest temperature (°C) during the thermosensitive period and mean PSR were 30.7 ± 1.2 °C and 79 ± 4%, respectively. Most years were female-biased or extremely female-biased but there was approximately one male-biased year in the decade. Although many nests produced 100% females, some male hatchlings were produced every year, even during the extreme 2015–2016 El Niño event. The preference of green turtles for nesting in shaded areas could help to mitigate the negative impacts of climate change unless temperatures in shaded areas rose above the male producing temperatures.
Highlights
Offspring sex ratio in animal species has been a subject of study over decades due to the implications on population survival (Hamilton 1967; Ewen et al 2001; Quinn et al 2007)
One of the most common types of Environmental Sex Determination (ESD) is Temperature-dependent Sex Determination (TSD), in which the offspring sex ratio is determined by temperature during egg development (Janzen and Krenz 2004; Valenzuela and Lance 2004)
Considering all nesting seasons together, the least frequent sectors were located at the north end of the beach, with no nests located at marker 0 and very few nests located
Summary
Offspring sex ratio in animal species has been a subject of study over decades due to the implications on population survival (Hamilton 1967; Ewen et al 2001; Quinn et al 2007). Sex is determined genetically, during or before conception, by Genotypic Sex Determination (GSD) (Korpelainen 1990; Janzen 1994). Some species, including many reptiles, have Environmental Sex Determination (ESD) with sex being determined mainly or exclusively by environmental factors. One of the most common types of ESD is Temperature-dependent Sex Determination (TSD), in which the offspring sex ratio is determined by temperature during egg development (Janzen and Krenz 2004; Valenzuela and Lance 2004). Sex in species with TSD is determined during the thermosensitive period (TSP). During this time, environmental temperature induces the production of sexual hormones that determine the sex of the embryo (Merchant-Larios and Diaz-Hernandez 2013). The range of temperatures over which both sexes are produced is known as the transitional range of temperature (TRT) and the temperature that produces 1:1 males and females as the Pivotal Temperature (PT) (Yntema and Mrosovsky 1980; Morreale et al 1982)
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