Foraging behaviour of sympatric razorbills and puffins

Shoji, Akiko; Elliott, Kyle H.; Fayet, Annette L.; Boyle, Dave; Perrins, C. M.; Guilford, Tim

doi:10.3354/meps11080

Cited by 40 publications

(40 citation statements)

References 68 publications

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“…The patterns and underlying physiological controls of foraging dives have been investigated in a number of air-breathing vertebrates, including seabirds (Elliott et al, 2013;Heath et al, 2007;Shoji et al, 2015), penguins (Hanuise et al, 2013;Shiomi et al, 2012), sea snakes (Cook and Brischoux, 2014), sea turtles (Bradshaw et al, 2007;Wallace and Jones, 2008), and a host of marine mammals. Current models of the cost of foraging in these diving animals and the resultant theories of optimal foraging strategies treat the acquisition and digestion of prey as physiological processes that are independent of one another (e.g., Burns et al, 2006;Mori, 1998;Sparling et al, 2007b;Thompson and Fedak, 2001).…”

Section: Introductionmentioning

confidence: 99%

Evidence of partial deferment of digestion during diving in Steller sea lions (Eumetopias jubatus)

Rosen

Gerlinsky

Trites

2015

Journal of Experimental Marine Biology and Ecology

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Section: Introductionmentioning

confidence: 99%

Evidence of partial deferment of digestion during diving in Steller sea lions (Eumetopias jubatus)

Rosen

Gerlinsky

Trites

2015

Journal of Experimental Marine Biology and Ecology

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“…Foraging behaviours affect the breeding performance of many seabirds, both directly during the breeding season (Monaghan, 1992;Pinaud & Weimerskirch, 2002) and through carry-over effects during the non-breeding season (Daunt et al, 2014;Shoji et al, 2015). European shags (Phalacrocorax aristotelis) performing late winter foraging trip of short duration were more likely to breed successfully during the following breeding season (Daunt et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Climate change and functional traits affect population dynamics of a long‐lived seabird

Jenouvrier

Desprez

Fay

et al. 2018

Journal of Animal Ecology

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Recent studies unravelled the effect of climate changes on populations through their impact on functional traits and demographic rates in terrestrial and freshwater ecosystems, but such understanding in marine ecosystems remains incomplete. Here, we evaluate the impact of the combined effects of climate and functional traits on population dynamics of a long-lived migratory seabird breeding in the southern ocean: the black-browed albatross (Thalassarche melanophris, BBA). We address the following prospective question: "Of all the changes in the climate and functional traits, which would produce the biggest impact on the BBA population growth rate?" We develop a structured matrix population model that includes the effect of climate and functional traits on the complete BBA life cycle. A detailed sensitivity analysis is conducted to understand the main pathway by which climate and functional trait changes affect the population growth rate. The population growth rate of BBA is driven by the combined effects of climate over various seasons and multiple functional traits with carry-over effects across seasons on demographic processes. Changes in sea surface temperature (SST) during late winter cause the biggest changes in the population growth rate, through their effect on juvenile survival. Adults appeared to respond to changes in winter climate conditions by adapting their migratory schedule rather than by modifying their at-sea foraging activity. However, the sensitivity of the population growth rate to SST affecting BBA migratory schedule is small. BBA foraging activity during the pre-breeding period has the biggest impact on population growth rate among functional traits. Finally, changes in SST during the breeding season have little effect on the population growth rate. These results highlight the importance of early life histories and carry-over effects of climate and functional traits on demographic rates across multiple seasons in population response to climate change. Robust conclusions about the roles of various phases of the life cycle and functional traits in population response to climate change rely on an understanding of the relationships of traits to demographic rates across the complete life cycle.

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“…This is likely to reflect the foraging behaviour of these groups, which are restricted to smaller home ranges due to their high flight costs, in contrast with pelagic species. Furthermore, sympatric auk species also rely on niche segregation rather than spatial segregation during the breeding season (Linnebjerg et al 2013, Shoji et al 2015b). Although foraging auks are known to associate with discrete features in the environment, such as tidal currents (Waggitt et al 2016, Bennison et al 2019, auk distribution is generally closely linked to distance to colony (Johnston et al 2015).…”

Section: Comparison Of Foraging Radius Distributions With Aerial Survmentioning

confidence: 99%

“…Although foraging auks are known to associate with discrete features in the environment, such as tidal currents (Waggitt et al 2016, Bennison et al 2019, auk distribution is generally closely linked to distance to colony (Johnston et al 2015). Furthermore, sympatric auk species also rely on niche segregation rather than spatial segregation during the breeding season (Linnebjerg et al 2013, Shoji et al 2015b). These factors probably explain why a foraging radius distribution with a uniform decay from the colony appears to be a good representation of their distribution.…”

Section: Comparison Of Foraging Radius Distributions With Aerial Survmentioning

confidence: 99%

Assessing the effectiveness of foraging radius models for seabird distributions using biotelemetry and survey data

et al. 2019

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Relatively simple foraging radius models have the potential to generate predictive distributions for a large number of species rapidly, thus providing a cost-effective alternative to large-scale surveys or complex modelling approaches. Their effectiveness, however, remains largely untested. Here we compare foraging radius distribution models for all breeding seabirds in Ireland, to distributions of empirical data collected from tracking studies and aerial surveys. At the local/colony level, we compared foraging radius distributions to GPS tracking data from seabirds with short (Atlantic puffin Fratercula arctica, and razorbill Alca torda) and long (Manx shearwater Puffinus puffinus, and European storm-petrel Hydrobates pelagicus) foraging ranges. At the regional/national level, we compared foraging radius distributions to extensive aerial surveys conducted over a two-year period. Foraging radius distributions were significantly positively correlated with tracking data for all species except Manx shearwater. Correlations between foraging radius distributions and aerial survey data were also significant, but generally weaker than those for tracking data. Correlations between foraging radius distributions and aerial survey data were benchmarked against generalised additive models (GAMs) of the aerial survey data that included a range of environmental covariates. While GAM distributions had slightly higher correlations with aerial survey data, the results highlight that the foraging radius approach can be a useful and pragmatic approach for assessing breeding distributions for many seabird species. The approach is likely to have acceptable utility in complex, temporally variable ecosystems and when logistic and financial resources are limited.

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Foraging behaviour of sympatric razorbills and puffins

Cited by 40 publications

References 68 publications

Evidence of partial deferment of digestion during diving in Steller sea lions (Eumetopias jubatus)

Evidence of partial deferment of digestion during diving in Steller sea lions (Eumetopias jubatus)

Climate change and functional traits affect population dynamics of a long‐lived seabird

Assessing the effectiveness of foraging radius models for seabird distributions using biotelemetry and survey data

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