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A model to estimate seabird field metabolic rates (2018)

Dunn, Ruth E. ; White, Craig R. ; Green, Jonathan A.

The Royal Society

In: Biology Letters. 2018; 14(6): 20180190. Published 2018 Jun 01. doi: 10.1098/rsbl.2018.0190.

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Publication Date: 2018-06-01

Description: For free-ranging animals, field metabolic rate (FMR) is the sum of their energy expenditure over a specified period. This quantity is a key component of ecological processes at every biological level. We applied a phylogenetically informed meta-analytical approach to identify the large-scale determinants of FMR in seabirds during the breeding season. Using data from 64 studies of energetics in 47 species, we created a model to estimate FMR for any seabird population. We found that FMR was positively influenced by body mass and colony latitude and that it increased throughout the breeding season from incubation to brood to crèche. FMR was not impacted by colony-relative predation pressure or species average brood size. Based on this model, we present an app through which users can generate estimates of FMR for any population of breeding seabird. We encourage the use of this app to complement behavioural studies and increase understanding of how energetic demands influence the role of seabirds as driving components of marine systems.

Print ISSN: 1744-9561

Electronic ISSN: 1744-957X

Topics: Biology

Published by The Royal Society

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Evidence of sociality in the timing and location of foraging in a colonial seabird (2018)

Jones, Teri B. ; Patrick, Samantha C. ; Arnould, John P. Y. ; [et al.]

The Royal Society

In: Biology Letters. 2018; 14(7): 20180214. Published 2018 Jul 01. doi: 10.1098/rsbl.2018.0214.

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Publication Date: 2018-07-01

Description: Social foraging behaviours, which range from cooperative hunting to local enhancement, can result in increased prey capture and access to information, which may significantly reduce time and energy costs of acquiring prey. In colonial species, it has been proposed that the colony itself may act as a site of social information transfer and group formation. However, conclusive evidence from empirical studies is lacking. In particular, most studies in colonial species have generally focussed on behaviours either at the colony or at foraging sites in isolation, and have failed to directly connect social associations at the colony to social foraging. In this study, we simultaneously tracked 85% of a population of Australasian gannets ( Morus serrator ) over multiple foraging trips, to study social associations at the colony and test whether these associations influence the location of foraging sites. We found that gannets positively associate with conspecifics while departing from the colony and that co-departing gannets have more similar initial foraging patches than individuals that did not associate at the colony. These results provide strong evidence for the theory that the colony may provide a source of information that influences foraging location.

Print ISSN: 1744-9561

Electronic ISSN: 1744-957X

Topics: Biology

Published by The Royal Society

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Wild geese do not increase flight behaviour prior to migration (2011)

Portugal, Steven J. ; Green, Jonathan A. ; White, Craig R. ; [et al.]

The Royal Society

In: Biology Letters. 2011; 8(3): 469-472. Published 2011 Nov 16. doi: 10.1098/rsbl.2011.0975.

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Publication Date: 2011-11-16

Description: Hypertrophy of the flight muscles is regularly observed in birds prior to long-distance migrations. We tested the hypothesis that a large migratory bird would increase flight behaviour prior to migration, in order to cause hypertrophy of the flight muscles, and upregulate key components of the aerobic metabolic pathways. Implantable data loggers were used to record year-round heart rate in six wild barnacle geese ( Branta leucopsis ), and the amount of time spent in flight each day was identified. Time in flight per day did not significantly increase prior to either the spring or the autumn migration, both between time periods prior to migration (5, 10 and 15 days), or when compared with a control period of low activity during winter. The lack of significant increase in flight prior to migration suggests that approximately 22 min per day is sufficient to maintain the flight muscles in condition for prolonged long-distance flight. This apparent lack of a requirement for increased flight activity prior to migration may be attributable to pre-migratory mass gains in the geese increasing workload during short flights, potentially prompting hypertrophy of the flight muscles.

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Topics: Biology

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Flight feather moult drives minimum daily heart rate in wild geese (2018)

Portugal, Steven J. ; White, Craig. R. ; Green, Jonathan A. ; [et al.]

The Royal Society

In: Biology Letters. 2018; 14(11): 20180650. Published 2018 Nov 01. doi: 10.1098/rsbl.2018.0650.

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Publication Date: 2018-11-01

Description: Waterfowl undergo an annual simultaneous flight-feather moult that renders them flightless for the duration of the regrowth of the flight feathers. In the wild, this period of flightlessness could restrict the capacity of moulting birds to forage and escape predation. Selection might therefore favour a short moult, but feather growth is constrained and presumably energetically demanding. We therefore tested the hypothesis that for birds that undergo a simultaneous flight-feather moult, this would be the period in the annual cycle with the highest minimum daily heart rates, reflecting these increased energetic demands. Implantable heart rate data loggers were used to record year-round heart rate in six wild barnacle geese ( Branta leucopsis ), a species that undergoes a simultaneous flight-feather moult. The mean minimum daily heart rate was calculated for each individual bird over an 11-month period, and the annual cycle was divided into seasons based on the life-history of the birds. Mean minimum daily heart rate varied significantly between seasons and was significantly elevated during wing moult, to 200 ± 32 beats min −1 , compared to all other seasons of the annual cycle, including both the spring and autumn migrations. The increase in minimum daily heart rate during moult is likely due to feather synthesis, thermoregulation and the reallocation of minerals and protein.

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Topics: Biology

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