Behavioral buffering of extreme weather events in a high‐Arctic herbivore

Behavioral buffering of extreme weather events in a high‐Arctic herbivore

Abstract As global warming advances, there is a growing concern about the impact of extreme weather events on ecosystems. In the Arctic, more frequent unseasonal warm spells and rain‐on‐snow events in winter cause changes in snow‐pack properties, including ground icing. Such extreme weather events a...

Full description

Bibliographic Details
Main Authors: Leif Egil Loe, Brage B. Hansen, Audun Stien, Steve D. Albon, Richard Bischof, Anja Carlsson, R. Justin Irvine, Morten Meland, Inger Maren Rivrud, Erik Ropstad, Vebjørn Veiberg, Atle Mysterud
Format: Article
Language:English
Published: Wiley 2016-06-01
Series:Ecosphere
Subjects:
Arctic
climate
GPS
ice
ideal‐free distribution
migration
Online Access:https://doi.org/10.1002/ecs2.1374
id doaj-0e6b7bbc1e184303a26fd7ffb0db1d34
record_format Article
spelling doaj-0e6b7bbc1e184303a26fd7ffb0db1d342020-11-25T01:50:57ZengWileyEcosphere2150-89252016-06-0176n/an/a10.1002/ecs2.1374Behavioral buffering of extreme weather events in a high‐Arctic herbivoreLeif Egil Loe0Brage B. Hansen1Audun Stien2Steve D. Albon3Richard Bischof4Anja Carlsson5R. Justin Irvine6Morten Meland7Inger Maren Rivrud8Erik Ropstad9Vebjørn Veiberg10Atle Mysterud11The Department of Ecology and Natural Resource Management Norwegian University of Life Sciences P.O. Box 5003 NO‐1432 Aas NorwayCentre for Biodiversity Dynamics Norwegian University of Science and Technology NO‐7491 Trondheim NorwayArctic Ecology Department Fram Centre Norwegian Institute for Nature Research NO‐9296 Tromsø NorwayThe James Hutton Institute Craigiebuckler Aberdeen AB15 8QH United KingdomThe Department of Ecology and Natural Resource Management Norwegian University of Life Sciences P.O. Box 5003 NO‐1432 Aas NorwayThe James Hutton Institute Craigiebuckler Aberdeen AB15 8QH United KingdomThe James Hutton Institute Craigiebuckler Aberdeen AB15 8QH United KingdomThe Department of Ecology and Natural Resource Management Norwegian University of Life Sciences P.O. Box 5003 NO‐1432 Aas NorwayDepartment of Biosciences Centre for Ecological and Evolutionary Synthesis (CEES) University of Oslo P.O. Box 1066 Blindern NO‐0316 Oslo NorwayThe Department of Ecology and Natural Resource Management Norwegian University of Life Sciences P.O. Box 5003 NO‐1432 Aas NorwayTerrestrial Ecology Department Norwegian Institute for Nature Research NO‐7485 Trondheim NorwayDepartment of Biosciences Centre for Ecological and Evolutionary Synthesis (CEES) University of Oslo P.O. Box 1066 Blindern NO‐0316 Oslo NorwayAbstract As global warming advances, there is a growing concern about the impact of extreme weather events on ecosystems. In the Arctic, more frequent unseasonal warm spells and rain‐on‐snow events in winter cause changes in snow‐pack properties, including ground icing. Such extreme weather events are known to have severe effects across trophic levels, for instance, causing die‐offs of large herbivores. However, the extent to which individuals and populations are able to buffer such events through behavioral plasticity is poorly understood. Here, we analyze responses in space use to rain‐on‐snow and icing events, and their fitness correlates, in wild reindeer in high‐Arctic Svalbard. Range displacement among GPS‐collared females occurred mainly in icy winters to areas with less ice, lower over‐winter body mass loss, lower mortality rate, and higher subsequent fecundity, than the departure area. Our study provides rare empirical evidence that mammals may buffer negative effects of climate change and extreme weather events by adjusting behavior in highly stochastic environments. Under global warming, behavioral buffering may be important for the long‐term population persistence in mobile species with long generation time and therefore limited ability for rapid evolutionary adaptation.https://doi.org/10.1002/ecs2.1374ArcticclimateGPSiceideal‐free distributionmigration
collection DOAJ
language English
format Article
sources DOAJ
author Leif Egil Loe
Brage B. Hansen
Audun Stien
Steve D. Albon
Richard Bischof
Anja Carlsson
R. Justin Irvine
Morten Meland
Inger Maren Rivrud
Erik Ropstad
Vebjørn Veiberg
Atle Mysterud
spellingShingle Leif Egil Loe
Brage B. Hansen
Audun Stien
Steve D. Albon
Richard Bischof
Anja Carlsson
R. Justin Irvine
Morten Meland
Inger Maren Rivrud
Erik Ropstad
Vebjørn Veiberg
Atle Mysterud
Behavioral buffering of extreme weather events in a high‐Arctic herbivore
Ecosphere
Arctic
climate
GPS
ice
ideal‐free distribution
migration
author_facet Leif Egil Loe
Brage B. Hansen
Audun Stien
Steve D. Albon
Richard Bischof
Anja Carlsson
R. Justin Irvine
Morten Meland
Inger Maren Rivrud
Erik Ropstad
Vebjørn Veiberg
Atle Mysterud
author_sort Leif Egil Loe
title Behavioral buffering of extreme weather events in a high‐Arctic herbivore
title_short Behavioral buffering of extreme weather events in a high‐Arctic herbivore
title_full Behavioral buffering of extreme weather events in a high‐Arctic herbivore
title_fullStr Behavioral buffering of extreme weather events in a high‐Arctic herbivore
title_full_unstemmed Behavioral buffering of extreme weather events in a high‐Arctic herbivore
title_sort behavioral buffering of extreme weather events in a high‐arctic herbivore
publisher Wiley
series Ecosphere
issn 2150-8925
publishDate 2016-06-01
description Abstract As global warming advances, there is a growing concern about the impact of extreme weather events on ecosystems. In the Arctic, more frequent unseasonal warm spells and rain‐on‐snow events in winter cause changes in snow‐pack properties, including ground icing. Such extreme weather events are known to have severe effects across trophic levels, for instance, causing die‐offs of large herbivores. However, the extent to which individuals and populations are able to buffer such events through behavioral plasticity is poorly understood. Here, we analyze responses in space use to rain‐on‐snow and icing events, and their fitness correlates, in wild reindeer in high‐Arctic Svalbard. Range displacement among GPS‐collared females occurred mainly in icy winters to areas with less ice, lower over‐winter body mass loss, lower mortality rate, and higher subsequent fecundity, than the departure area. Our study provides rare empirical evidence that mammals may buffer negative effects of climate change and extreme weather events by adjusting behavior in highly stochastic environments. Under global warming, behavioral buffering may be important for the long‐term population persistence in mobile species with long generation time and therefore limited ability for rapid evolutionary adaptation.
topic Arctic
climate
GPS
ice
ideal‐free distribution
migration
url https://doi.org/10.1002/ecs2.1374
work_keys_str_mv AT leifegilloe behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT bragebhansen behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT audunstien behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT stevedalbon behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT richardbischof behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT anjacarlsson behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT rjustinirvine behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT mortenmeland behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT ingermarenrivrud behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT erikropstad behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT vebjørnveiberg behavioralbufferingofextremeweathereventsinahigharcticherbivore
AT atlemysterud behavioralbufferingofextremeweathereventsinahigharcticherbivore
_version_ 1724999215855173632

Similar Items