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King penguins adjust their diving behaviour with age.
Le Vaillant M., Wilson R. P., Kato A., Saraux C., Hanuise N. et al
J Exp Biol 215, 21 (2012) 3685-3692 - http://hal.archives-ouvertes.fr/hal-00750742
Sciences du Vivant/Biodiversité/Evolution
Sciences de l'environnement
King penguins adjust their diving behaviour with age.
Maryline Le Vaillant1, Rory P Wilson2, Akiko Kato1, Claire Saraux1, Nicolas Hanuise1, 3, Onésime Prud'Homme1, Yvon Le Maho1, Céline Le Bohec1, 4, 5, Yan Ropert-Coudert1
1 :  DEPE-IPHC - Département Ecologie, Physiologie et Ethologie
CNRS : UMR7178 – Université de Strasbourg
23, rue Becquerel 67087 Strasbourg Cedex 2
France
2 :  Biosciences
Swansea University
Royaume-Uni
3 :  CEBC - Centre d'études biologiques de Chizé
http://www.cebc.cnrs.fr/
CNRS : UPR1934
Centre d'Études Biologiques de Chizé CNRS 79360 VILLIERS-EN-BOIS
France
4 :  CEES - Centre for Ecological and Evolutionary Synthesis
Department of Biology – University of Oslo
PO BOX 1066 BLINDERN NO-0316 OSLO
Norvège
5 :  LEA BioSensib
Centre Scientifique de Monaco
Monaco
Increasing experience in long-lived species is fundamental to improving breeding success and ultimately individual fitness. Diving efficiency of marine animals is primarily determined by their physiological and mechanical characteristics. This efficiency may be apparent via examination of biomechanical performance (e.g. stroke frequency and amplitude, change in buoyancy or body angle, etc.), which itself may be modulated according to resource availability, particularly as a function of depth. We investigated how foraging and diving abilities vary with age in a long-lived seabird. During two breeding seasons, small accelerometers were deployed on young (5 year old) and older (8/9 year old) brooding king penguins (Aptenodytes patagonicus) at the Crozet Archipelago, Indian Ocean. We used partial dynamic body acceleration (PDBA) to quantify body movement during dive and estimate diving cost. During the initial part of the descent, older birds exerted more effort for a given speed but younger penguins worked harder in relation to performance at greater depths. Younger birds also worked harder per unit speed for virtually the whole of the ascent. We interpret these differences using a model that takes into account the upthrust and drag to which the birds are subjected during the dive. From this, we suggest that older birds inhale more at the surface but that an increase in the drag coefficient is the factor leading to the increased effort to swim at a given speed by the younger birds at greater depths. We propose that this higher drag may be the result of young birds adopting less hydrodynamic postures or less direct trajectories when swimming or even having a plumage in poorer condition.
Anglais

J Exp Biol
internationale
Articles dans des revues avec comité de lecture
01/11/2012
215
21
3685-3692

acceleration – age – buoyancy – diving – PDBA – swim speed – seabirds

IPEV(Prog.137 ECOPHY), TAAF, Marie Curie Intra European Fellowship(FP7-PEOPLE-IEF-2008, European commission; project n°235962)