From trips to bouts to dives: temporal patterns in the diving behaviour of chick-rearing Adelie penguins, East Antarctica

Breeding Adélie penguins forage at sea and return to land to provision their chicks, adjusting their foraging behaviour in response to environmental fluctuations over time. At Béchervaise Island, a nesting site in an East Antarctic population, Adélie penguin diving behaviour remains undocumented. Th...

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Bibliographic Details
Published in:Marine Ecology Progress Series
Main Authors: Riaz, J, Bestley, S, Wotherspoon, S, Freyer, J, Emmerson, L
Format: Article in Journal/Newspaper
Language:English
Published: Inter-Research 2020
Subjects:
Online Access:https://eprints.utas.edu.au/35575/
https://eprints.utas.edu.au/35575/1/141561%20-%20From%20trips%20to%20bouts%20to%20dives%20-%20temporal%20patterns%20in%20the%20diving%20behaviour_OA.pdf
Description
Summary:Breeding Adélie penguins forage at sea and return to land to provision their chicks, adjusting their foraging behaviour in response to environmental fluctuations over time. At Béchervaise Island, a nesting site in an East Antarctic population, Adélie penguin diving behaviour remains undocumented. This represents a key area of uncertainty in efforts to understand and predict foraging success at this colony. Here, we compile a multi-year telemetry dataset from time-depth recorders deployed from 1992–2004 on 64 birds at Béchervaise Island. We examine diving activity at multiple scales: ranging from foraging trips (n = 125) to dive bouts (n = 3461) to individual dives (n = 84521). We characterise the stage- and sex-specific variation in diving behaviour of chick-rearing Adélie penguins using linear mixed effect models. Total foraging trip effort (trip duration, number of dives, vertical distance travelled and number of wiggles) substantially increased as the chick-rearing period progressed (guard through crèche), consistent with increasing chick provisioning and self-maintenance requirements over time. Foraging activity was predominantly structured in periods of sustained diving bouts, indicating sustained foraging effort over the course of the foraging trip. Diving behaviour (dive-level depth, duration, bottom time and ACPUEd) varied in relation to sex and chick-rearing stage. Dives were performed more frequently during high and low levels of solar light which is likely linked to visual predation strategies or prey activity. Our findings advance our understanding of this population’s foraging behaviour, which is ultimately required to underpin the conservation and management of this breeding colony.