Path analysis reveals combined winter climate and pollution effects on the survival of a marine top predator

Author:

Layton‐Matthews Kate12ORCID,Erikstad Kjell Einar13,Sandvik Hanno4ORCID,Ballesteros Manuel1,Hodges Kevin5ORCID,Mesquita Michel D. S.6ORCID,Reiertsen Tone K.1,Yoccoz Nigel G.17,Bustnes Jan Ove1

Affiliation:

1. FRAM Centre Norwegian Institute for Nature Research (NINA) Tromsø Norway

2. Norwegian Institute for Nature Research (NINA) Oslo Norway

3. Centre for Biodiversity Dynamics (CBD) Norwegian University of Science and Technology (NTNU) Trondheim Norway

4. Norwegian Institute for Nature Research (NINA) Trondheim Norway

5. Department of Meteorology University of Reading Reading UK

6. DNV, Energy Systems, Markets and Risk London UK

7. Department of Arctic and Marine Biology The Arctic University of Norway (UiT) Tromsø Norway

Abstract

Abstract Marine ecosystems are experiencing growing pressure from multiple threats caused by human activities, with far‐reaching consequences for marine food webs. Determining the effects of multiple stressors is complex, in part, as they can affect different aspects of biological organisation (behaviour, individual traits and demographic rates). Determining the combined effects of stressors, through different biological pathways, is key to predict the consequences for the viability of populations threatened by global change. Due to their position in the food chain, top predators such as seabirds are considered more sensitive to environmental changes. Climate change is affecting the prey resources available for seabirds, through bottom‐up effects, while organic pollutants can bioaccumulate in food chains with the greatest impacts on top predators. However, knowledge of their combined effects on population dynamics is scarce. Using a path analysis, we quantify the effects of climate change and pollution on the survival of adult great black‐backed gulls, both directly and through effects of individuals' body mass. Warmer ocean temperatures in gulls' winter foraging areas in the North Sea were correlated with higher survival, potentially explained by shifts in prey availability associated with global climate change. We also found support for indirect negative effects of organochlorines, highly toxic pollutants to seabirds, on survival, which acted, in part, through a negative effect on body mass. The results from this path analysis highlight how, even for such long‐lived species where variance in survival tends to be limited, two stressors still have had a marked influence on adult survival and illustrate the potential of path models to improve predictions of population variability under multiple stressors.

Funder

Norges Forskningsråd

Framsenteret

Publisher

Wiley

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