Ocean climate and egg investment in the black-legged kittiwake Rissa tridactyla.

Published version available in Marine Ecology Progress Series 2017, 579: 129–137. Birds allocate substantial resources to their eggs during the laying period, resources also needed for other concurrent costly processes such as mate acquisition, nest building and site defence. Egg and clutch sizes ma...

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Bibliographic Details
Published in:Marine Ecology Progress Series
Main Authors: Barrett, Robert T., Erikstad, Kjell E., Reiertsen, Tone
Format: Article in Journal/Newspaper
Language:English
Published: Inter Research 2017
Subjects:
Online Access:https://hdl.handle.net/10037/12373
https://doi.org/10.3354/meps12270
Description
Summary:Published version available in Marine Ecology Progress Series 2017, 579: 129–137. Birds allocate substantial resources to their eggs during the laying period, resources also needed for other concurrent costly processes such as mate acquisition, nest building and site defence. Egg and clutch sizes may thus vary in response to food availability prior to egg laying. We investigated the variation in egg and clutch size of black-legged kittiwakes Rissa tridactyla in a North Norwegian colony over a 33 yr period (1980–2012). Considerable interannual variation was evident in both egg and clutch sizes, but no temporal trends were observed. To identify environmental conditions explaining the variation, we modelled egg size and number in relation to the influx of warm Atlantic Water (AW) into the Barents Sea and to the abundance of 2 of the kittiwakes’ most preferred prey species. Most of the variation was explained by the volumes of AW that flowed into the Barents Sea in winter and autumn. Both had a negative effect on egg investment. There was also a smaller, positive effect on egg investment of AW inflow (and capelin numbers for clutch size) immediately prior to egg laying. The negative impact of an increased influx of AW on kittiwakes may be partly due to the resulting warming of the waters, forcing a more northerly distribution of capelin beyond the foraging range of the kittiwakes at the colony or to changes at different trophic levels that are detrimental to kittiwake forage fish ecology. A further warming of the Barents Sea through climate change is thus forecast to be detrimental for kittiwakes. Egg volume · Clutch size · Black-legged kittiwake · Rissa tridactyla · Ocean climate