Development of flight and foraging behaviour in a juvenile seabird with extreme soaring capacities

Corbeau, Alexandre; Prudor, Aurélien; Kato, Akira; Weimerskirch, Henri

doi:10.1111/1365-2656.13121

Cited by 31 publications

(28 citation statements)

References 24 publications

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“…In this paper, we provided the first comparison of changes in movement and foraging parameters, by day and night, through the first weeks of independence at sea of two closely related species of Diomedea albatrosses. This learning period, is a topic of growing interest among seabirds (Yoda et al 2004, Riotte‐Lambert and Weimerskirch 2013, Votier et al 2017, Sherratt and Morand‐Ferron 2018, Campioni et al 2019, Collet et al 2020, Corbeau et al 2020).…”

Section: Discussionmentioning

confidence: 99%

Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour

Pajot

Corbeau

Jambon³

et al. 2021

Journal of Avian Biology

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The first year of life is a period of high mortality in animals. Reduced foraging capacities of naive individuals might be the primary cause of their mortality. These capacities are supposed to be progressively acquired during the first months of life. In this study, we investigate the ontogeny of flight capacities, by day and night, of first‐year individuals, and compare it with adults from two closely related species of great albatrosses: Amsterdam Diomedea amsterdamensis and wandering Diomedea exulans albatrosses which forage in different environmental conditions. We used 71 tracks of 71 juvenile birds and 141 of 116 incubating adults to compare both age categories. In order to explore the effect of moon light on night activity, we elaborated a new formula which improves the precision of the proxy of moon illumination. By day, we found that juveniles of both species reach some adult foraging capacities in less than two months. By night, albatrosses have reduced activity increasing during the first weeks at sea for juveniles and changing in accordance with moon illumination for both juveniles and adults. A peak of flight activity at dawn and dusk was apparent for both species. Interspecific comparison underlined that Amsterdam albatrosses were more active than wandering albatrosses, suggesting a difference in food and foraging strategy. Overall, we highlighted how life history traits, environmental conditions and time of the day affect the foraging activity of two related species of seabirds.

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Section: Discussionmentioning

confidence: 99%

Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour

Pajot

Corbeau

Jambon³

et al. 2021

Journal of Avian Biology

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“…Young individuals of other petrel and albatross species also disperse rapidly away from their natal colony, suggesting an innate ability to orientate with respect to wind direction, and fly with a high level of efficiency immediately after fledging (Alderman et al, 2010;de Grissac et al, 2016;Riotte-Lambert & Weimerskirch, 2013). This is not typical of other seabird taxa, however, which instead show progressive improvements in their flight performance with the number of days since fledging (Corbeau, Prudor, Kato, & Weimerskirch, 2019;Mendez, Prudor, & Weimerskirch, 2019;Yoda et al, 2004).…”

Section: Ontogeny Of Movement Strategies: Learned Vs Innate Behaviourmentioning

confidence: 98%

Environmental drivers of movement in a threatened seabird: insights from a mechanistic model and implications for conservation

Frankish

Phillips

Clay

et al. 2020

Diversity and Distributions

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Aim Determining the drivers of movement of different life‐history stages is crucial for understanding age‐related changes in survival rates and, for marine top predators, the link between fisheries overlap and incidental mortality (bycatch), which is driving population declines in many taxa. Here, we combine individual tracking data and a movement model to investigate the environmental drivers and conservation implications of divergent movement patterns in juveniles (fledglings) and adults of a threatened seabird, the white‐chinned petrel (Procellaria aequinoctialis). Location South‐west Atlantic Ocean. Methods We compare the spatial distributions and movement characteristics of juvenile, breeding and non‐breeding adult petrels, and apply a mechanistic movement model to investigate the extent to which chlorophyll a concentrations (a proxy for food resources) and ocean surface winds drive their divergent distribution patterns. We also consider the conservation implications by determining the relative overlap of each life‐history stage with fishing intensity and reported fishing effort (proxies for bycatch risk). Results Naïve individuals fledged with similar flight capabilities (based on distances travelled, flight speeds and track sinuosity) to adults but differed in their trajectories. Comparison of simulations from the mechanistic model with real tracks showed that juvenile movements are best predicted by prevailing wind patterns, whereas adults are attracted to food resources on the Patagonian Shelf. The juveniles initially dispersed to less productive oceanic waters than those used by adults, and overlapped less with fishing activity; however, as they moved westwards towards South America, bycatch risk increased substantially. Main conclusions The use of a mechanistic framework provided insights into the ontogeny of movement strategies within the context of learned versus innate behaviour and demonstrated that divergent movement patterns of adults and juveniles can have important implications for the conservation of threatened seabirds.

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“…Conversely, Corbeau et al (2020) combine GPS with measures of altitude and tri-axial acceleration to identify different flight behaviours (e.g. soaring, flapping) in great frigatebirds and quantify energy expenditure during those phases.…”

Section: Movement Costs and Energy Expenditurementioning

confidence: 99%

“…Corbeau et al (2020) demonstrate how juvenile great frigatebirds progressively improve their flight skills in the first few months following their first flight. Combining GPS and accelerometers to distinguish between different flight behaviours (e.g.…”

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confidence: 91%

“…2020) using such metrics to quantify the cost of dispersal in roe deer Capreolus capreolus,and Corbeau, Prudor, Kato, and Weimerskirch (2020) to quantify and compare average energy expenditure during different flight phases (soaring and flapping flight) in juvenile and adult great frigatebirds Fregata minor during their foraging trips, to study the ontogeny of flight and foraging behaviour. Bonnot et al (2020) use activity sensors in roe deer to disentangle the contrasting effects of predator density and human disturbance on diel activity patterns, whereas Nuijten, Gerrits, Shamoun-Baranes and Nolet (2020) present a new data compression approach for accelerometer data to overcome limitations in storage and energy capacity of loggers and aid data transmission while preserving the behavioural signal in the data.…”

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confidence: 99%

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Börger

Bijleveld

Fayet

et al. 2020

Journal of Animal Ecology

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Development of flight and foraging behaviour in a juvenile seabird with extreme soaring capacities

Cited by 31 publications

References 24 publications

Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour

Diel at‐sea activity of two species of great albatrosses: the ontogeny of foraging and movement behaviour

Environmental drivers of movement in a threatened seabird: insights from a mechanistic model and implications for conservation

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