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Thursday 12 January 2017

Climatic conditions produce contrasting influences on demographic traits in a long distance Arctic migrant.

2016 Dec 14. doi: 10.1111/1365-2656.12623. [Epub ahead of print]


Author information

  • 1Centre of Ecology and Conservation, University of Exeter, Cornwall Campus, Penryn, TR10 9FE, UK.
  • 2Icelandic Institute of Natural History,  Urridaholtsstraeti, 212, Gardabaer, Iceland.
  • 3Irish Brent Goose Research Group, 100 Strangford Road, Downpatrick, County Down, BT30 7JD, UK.
  • 4Irish Brent Goose Research Group, Mahee Island, Comber,, County Down, BT23 6EP, UK.
  • 5RSPB Centre for Conservation Science, RSPB Northern Ireland, Belvoir Park Forest, Belfast, BT8 7QT, UK.

Abstract

The manner in which patterns of variation and interactions among demographic rates contribute to population growth rate (λ) are key to understanding how animal populations will respond to changing climatic conditions. Migratory species are likely to be particularly sensitive to climatic conditions as they experience a range of different environments throughout their annual cycle. However, few studies have provided fully integrated demographic analyses of migratory populations in response to changing climatic conditions. Here, we employed integrated population models (IPM) to demonstrate that the environmental conditions experienced during a short, but critical period, play a central role in the demography of a long-distance migrant, the light-bellied Brent goose (Branta bernicla hrota). Female survival was positively associated with June North Atlantic Oscillation (NAO) values, whereas male survival was not. In contrast, breeding productivity was negatively associated with June NAO, suggesting a trade-off between female survival and reproductive success. Both adult female and adult male survival showed low temporal variation, whereas there was high temporal variation in recruitment and breeding productivity. In addition, while annual population growth was positively correlated with annual breeding productivity a sensitivity analysis revealed that population growth was most sensitive to changes in adult survival. Our results demonstrate that the environmental conditions experienced during a relatively short-time window at the start of the breeding season play a critical role in shaping the demography of a long-distant Arctic migrant. Crucially, different demographic rates responded in opposing directions to climatic variation, emphasizing the need for integrated analysis of multiple demographic traits when understanding population dynamics. This article is protected by copyright. All rights reserved.

KEYWORDS:

Annual routine; Canadian Arctic; capture-mark-recapture; climate change; population demography