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Extreme rainfall events and cooling of sea turtle clutches: Implications in the face of climate warming

Jacques‐Olivier Laloë, Jamie N. Tedeschi, David T. Booth, Ian Bell, A Dunstan, Richard D. Reina, Graeme C. Hays

2020Ecology and Evolution38 citationsDOIOpen Access PDF

Abstract

Abstract Understanding how climate change impacts species and ecosystems is integral to conservation. When studying impacts of climate change, warming temperatures are a research focus, with much less attention given to extreme weather events and their impacts. Here, we show how localized, extreme rainfall events can have a major impact on a species that is endangered in many parts of its range. We report incubation temperatures from the world's largest green sea turtle rookery, during a breeding season when two extreme rainfall events occurred. Rainfall caused nest temperatures to drop suddenly and the maximum drop in temperature for each rain‐induced cooling averaged 3.6°C ( n = 79 nests, min = 1.0°C, max = 7.4°C). Since green sea turtles have temperature‐dependent sex determination, with low incubation temperatures producing males, such major rainfall events may have a masculinization effect on primary sex ratios. Therefore, in some cases, extreme rainfall events may provide a “get‐out‐of‐jail‐free card” to avoid complete feminization of turtle populations as climate warming continues.

Topics & Concepts

Sea turtleClimate changeEnvironmental scienceTurtle (robot)Global warmingExtreme weatherNest (protein structural motif)EcologyEcosystemRange (aeronautics)ClimatologyEndangered speciesRookeryAtmospheric sciencesBiologyHabitatPopulationDemographyComposite materialMaterials scienceGeologyBiochemistrySociologyTurtle Biology and ConservationAmphibian and Reptile BiologyBird parasitology and diseases
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