Litcius/Paper detail

Observational and model evidence together support wide-spread exposure to noncompensable heat under continued global warming

Carter M. Powis, David Byrne, Zachary Zobel, Kelly N. Gassert, A.C. Lute, Christopher R. Schwalm

2023Science Advances46 citationsDOIOpen Access PDF

Abstract

As our planet warms, a critical research question is when and where temperatures will exceed the limits of what the human body can tolerate. Past modeling efforts have investigated the 35°C wet-bulb threshold, proposed as a theoretical upper limit to survivability taking into account physiological and behavioral adaptation. Here, we conduct an extreme value theory analysis of weather station observations and climate model projections to investigate the emergence of an empirically supported heat compensability limit. We show that the hottest parts of the world already experience these heat extremes on a limited basis and that under moderate continued warming parts of every continent, except Antarctica, will see a rapid increase in their extent and frequency. To conclude, we discuss the consequences of the emergence of this noncompensable heat and the need for incorporating different critical thermal limits into heat adaptation planning.

Topics & Concepts

Environmental scienceGlobal warmingLimit (mathematics)ClimatologyAdaptation (eye)SurvivabilityClimate changeHeat stressMeteorologyAtmospheric sciencesComputer scienceGeographyEcologyBiologyGeologyMathematicsMathematical analysisNeuroscienceComputer networkClimate Change and Health ImpactsClimate variability and modelsThermoregulation and physiological responses