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Effects of global warming on species with temperature-dependent sex determination: Bridging the gap between empirical research and management.

Emma C LockleyChristophe Eizaguirre
Published in: Evolutionary applications (2021)
Global warming could threaten over 400 species with temperature-dependent sex determination (TSD) worldwide, including all species of sea turtle. During embryonic development, rising temperatures might lead to the overproduction of one sex and, in turn, could bias populations' sex ratios to an extent that threatens their persistence. If climate change predictions are correct, and biased sex ratios reduce population viability, species with TSD may go rapidly extinct unless adaptive mechanisms, whether behavioural, physiological or molecular, exist to buffer these temperature-driven effects. Here, we summarize the discovery of the TSD phenomenon and its still elusive evolutionary significance. We then review the molecular pathways underpinning TSD in model species, along with the hormonal mechanisms that interact with temperatures to determine an individual's sex. To illustrate evolutionary mechanisms that can affect sex determination, we focus on sea turtle biology, discussing both the adaptive potential of this threatened TSD taxon, and the risks associated with conservation mismanagement.
Keyphrases
  • climate change
  • solid phase extraction
  • human health
  • metabolic syndrome
  • type diabetes
  • genome wide
  • molecularly imprinted
  • risk assessment
  • high throughput
  • quantum dots