Body surface rewarming in fully and partially hypothermic king penguins
Résumé
Penguins face a major thermal transition when returning to land in a hypothermic state after a
foraging trip. Uninsulated
appendages (fl and feet) could provide fl xible heat exchange during subsequent rewarming. Here, we
tested the hypothesis that peripheral vasodilation could be delayed during this recovery stage. To
this end, we designed an experiment to examine patterns of surface rewarming in fully hypothermic
(the cloaca and peripheral regions (here; flippers, feet and the breast) < 37 °C) and partially
hypothermic (cloaca at normothermia ≥ 37 °C, but periphery at hypothermia) king penguins
(Aptenodytes patagonicus) when they rewarmed in the laboratory. Both groups rewarmed during the 21
min observation period, but the temperature changes were larger in fully than in partially
hypothermic birds. Moreover, we observed a 5 min delay of peripheral temperature in fully compared
to partially hypothermic birds, suggesting that this process was impacted by low internal
temperature. To investigate whether our laboratory data were applicable to field conditions, we
also recorded surface temperatures of free-ranging penguins after they came ashore to the colony.
Initial surface temperatures were lower in these birds compared to in those that rewarmed in the
laboratory, and changed less over a comparable period of time on land. This could be explained both
by environmental conditions and possible handling-induced thermogenesis in the labora- tory.
Nevertheless, this study demonstrated that appendage vasodilation is flexibly used during rewarming
and that recovery may be influenced by both internal temperature and environmental conditions when
penguins transition from sea to land.
Fichier principal
Lewden2020_Article_BodySurfaceRewarmingInFullyAnd.pdf (2.04 Mo)
Télécharger le fichier
Origine | Fichiers produits par l'(les) auteur(s) |
---|
Loading...