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Main Authors: Lemonnier, Camille, Bost, Charles-André, Joly, Nicolas, Stier, Antoine, Robin, Jean-Patrice, Handrich, Yves, Cillard, Anne, Montblanc, Marine, Bize, Pierre, Viblanc, Vincent A
Format: Artículo científico
Language:en
Published: Oecologia 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40610684/
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author Lemonnier, Camille
Bost, Charles-André
Joly, Nicolas
Stier, Antoine
Robin, Jean-Patrice
Handrich, Yves
Cillard, Anne
Montblanc, Marine
Bize, Pierre
Viblanc, Vincent A
author_facet Lemonnier, Camille
Bost, Charles-André
Joly, Nicolas
Stier, Antoine
Robin, Jean-Patrice
Handrich, Yves
Cillard, Anne
Montblanc, Marine
Bize, Pierre
Viblanc, Vincent A
Lemonnier, Camille
Bost, Charles-André
Joly, Nicolas
Stier, Antoine
Robin, Jean-Patrice
Handrich, Yves
Cillard, Anne
Montblanc, Marine
Bize, Pierre
Viblanc, Vincent A
collection PubMed - marine biology
contents Foraging flexibility in response to at-sea constraints in a deep diver, the king penguin: an experimental study. Lemonnier, Camille Bost, Charles-André Joly, Nicolas Stier, Antoine Robin, Jean-Patrice Handrich, Yves Cillard, Anne Montblanc, Marine Bize, Pierre Viblanc, Vincent A Animals Spheniscidae Feeding Behavior Diving Oceans and Seas Female When foraging, marine top predators rely on increasingly unpredictable oceanographic structures. Central place foragers are particularly affected. Their efficiency at replenishing their body reserves at sea while feeding their offspring on land relies on accurately targeting predictable foraging locations. Therefore, increased time and effort spent searching for resources is likely to compromise reproduction. Here, we used an experimental design to assess the flexibility of breeding king penguin (Aptenodytes patagonicus) foraging behavior in response to harsh conditions at sea, and examined the consequences on the growth and survival of their chick. We tested for behavioral adjustments to compensate for experimentally increased foraging workload, obtained by the application of a hydrodynamic drag effect. Compared to controls, treated adults more directly targeted a predictable hydrographic feature, the Polar Front, while limiting the increased costs of deep diving. Treated adults significantly increased hunting activity at shallower depths where the effect of treatment on diving efficiency was negligible. Our experiment resulted in decreased body mass gain during the brooding stage of chicks raised by treated parents compared to controls, with no direct effects on chick survival up to the winter period, but significant negative effects during winter. We identified two different strategies for foraging in king penguins: (1) foraging at the Polar Front where prey patches are more predictable and accessible at shallower depths or (2) foraging closer to the colony by targeting preys at deeper depths. These results highlight the possibility of a trade-off between distance and depth in breeding king penguin foraging behavior.
format Artículo científico
id pubmed_40610684
institution PubMed
language en
publishDate 2025
publisher Oecologia
record_format pubmed
spellingShingle Foraging flexibility in response to at-sea constraints in a deep diver, the king penguin: an experimental study.
Lemonnier, Camille
Bost, Charles-André
Joly, Nicolas
Stier, Antoine
Robin, Jean-Patrice
Handrich, Yves
Cillard, Anne
Montblanc, Marine
Bize, Pierre
Viblanc, Vincent A
Animals
Spheniscidae
Feeding Behavior
Diving
Oceans and Seas
Female
Foraging flexibility in response to at-sea constraints in a deep diver, the king penguin: an experimental study. Lemonnier, Camille Bost, Charles-André Joly, Nicolas Stier, Antoine Robin, Jean-Patrice Handrich, Yves Cillard, Anne Montblanc, Marine Bize, Pierre Viblanc, Vincent A Animals Spheniscidae Feeding Behavior Diving Oceans and Seas Female When foraging, marine top predators rely on increasingly unpredictable oceanographic structures. Central place foragers are particularly affected. Their efficiency at replenishing their body reserves at sea while feeding their offspring on land relies on accurately targeting predictable foraging locations. Therefore, increased time and effort spent searching for resources is likely to compromise reproduction. Here, we used an experimental design to assess the flexibility of breeding king penguin (Aptenodytes patagonicus) foraging behavior in response to harsh conditions at sea, and examined the consequences on the growth and survival of their chick. We tested for behavioral adjustments to compensate for experimentally increased foraging workload, obtained by the application of a hydrodynamic drag effect. Compared to controls, treated adults more directly targeted a predictable hydrographic feature, the Polar Front, while limiting the increased costs of deep diving. Treated adults significantly increased hunting activity at shallower depths where the effect of treatment on diving efficiency was negligible. Our experiment resulted in decreased body mass gain during the brooding stage of chicks raised by treated parents compared to controls, with no direct effects on chick survival up to the winter period, but significant negative effects during winter. We identified two different strategies for foraging in king penguins: (1) foraging at the Polar Front where prey patches are more predictable and accessible at shallower depths or (2) foraging closer to the colony by targeting preys at deeper depths. These results highlight the possibility of a trade-off between distance and depth in breeding king penguin foraging behavior.
title Foraging flexibility in response to at-sea constraints in a deep diver, the king penguin: an experimental study.
topic Animals
Spheniscidae
Feeding Behavior
Diving
Oceans and Seas
Female
url https://pubmed.ncbi.nlm.nih.gov/40610684/