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Fasting season length sets temporal limits for global polar bear persistence

Péter K. Molnár (), Cecilia M. Bitz (), Marika M. Holland, Jennifer E. Kay, Stephanie R. Penk and Steven C. Amstrup
Additional contact information
Péter K. Molnár: University of Toronto Scarborough
Cecilia M. Bitz: University of Washington
Marika M. Holland: National Center for Atmospheric Research
Jennifer E. Kay: University of Colorado Boulder
Stephanie R. Penk: University of Toronto Scarborough
Steven C. Amstrup: Polar Bears International

Nature Climate Change, 2020, vol. 10, issue 8, 732-738

Abstract: Abstract Polar bears (Ursus maritimus) require sea ice for capturing seals and are expected to decline range-wide as global warming and sea-ice loss continue1,2. Estimating when different subpopulations will likely begin to decline has not been possible to date because data linking ice availability to demographic performance are unavailable for most subpopulations2 and unobtainable a priori for the projected but yet-to-be-observed low ice extremes3. Here, we establish the likely nature, timing and order of future demographic impacts by estimating the threshold numbers of days that polar bears can fast before cub recruitment and/or adult survival are impacted and decline rapidly. Intersecting these fasting impact thresholds with projected numbers of ice-free days, estimated from a large ensemble of an Earth system model4, reveals when demographic impacts will likely occur in different subpopulations across the Arctic. Our model captures demographic trends observed during 1979–2016, showing that recruitment and survival impact thresholds may already have been exceeded in some subpopulations. It also suggests that, with high greenhouse gas emissions, steeply declining reproduction and survival will jeopardize the persistence of all but a few high-Arctic subpopulations by 2100. Moderate emissions mitigation prolongs persistence but is unlikely to prevent some subpopulation extirpations within this century.

Date: 2020
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DOI: 10.1038/s41558-020-0818-9

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