Biologging of emperor penguins-Attachment techniques and associated deployment performance

Aymeric Houstin^{1

2

3}, Daniel P Zitterbart^{3

4

5}, Alexander Winterl^{3

4}, Sebastian Richter^{3

4}, Víctor Planas-Bielsa¹, Damien Chevallier², André Ancel², Jérôme Fournier^{6

7}, Ben Fabry³, Céline Le Bohec^{1

2}

Affiliations

¹ Département de Biologie Polaire, Centre Scientifique de Monaco, Monaco, Principality of Monaco.
² CNRS UMR 7178, IPHC, Université de Strasbourg, Strasbourg, France.
³ Department of Physics, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.
⁴ Applied Ocean Physics and Engineering Woods Hole, Woods Hole Oceanographic Institution, Woods Hole, MA, United States of America.
⁵ International Research Organization for Advanced Science and Technology (IROAST), Kumamoto University, Kumamoto, Japan.
⁶ CNRS UMR 7204 CESCO, Station de Biologie Marine, Muséum National d'Histoire Naturelle, Concarneau, France.
⁷ Centre de Recherches sur la Biologie des Populations d'Oiseaux, Muséum National d'Histoire Naturelle, Paris, France.

PMID: 35925903
PMCID: PMC9352057
DOI: 10.1371/journal.pone.0265849

Biologging of emperor penguins-Attachment techniques and associated deployment performance

Aymeric Houstin et al. PLoS One. 2022.

. 2022 Aug 4;17(8):e0265849.

doi: 10.1371/journal.pone.0265849. eCollection 2022.

Authors

Affiliations

¹ Département de Biologie Polaire, Centre Scientifique de Monaco, Monaco, Principality of Monaco.
² CNRS UMR 7178, IPHC, Université de Strasbourg, Strasbourg, France.
³ Department of Physics, Friedrich-Alexander-University Erlangen-Nürnberg, Erlangen, Germany.
⁴ Applied Ocean Physics and Engineering Woods Hole, Woods Hole Oceanographic Institution, Woods Hole, MA, United States of America.
⁵ International Research Organization for Advanced Science and Technology (IROAST), Kumamoto University, Kumamoto, Japan.
⁶ CNRS UMR 7204 CESCO, Station de Biologie Marine, Muséum National d'Histoire Naturelle, Concarneau, France.
⁷ Centre de Recherches sur la Biologie des Populations d'Oiseaux, Muséum National d'Histoire Naturelle, Paris, France.

PMID: 35925903
PMCID: PMC9352057
DOI: 10.1371/journal.pone.0265849

Abstract

An increasing number of marine animals are equipped with biologgers, to study their physiology, behaviour and ecology, often for conservation purposes. To minimise the impacts of biologgers on the animals' welfare, the Refinement principle from the Three Rs framework (Replacement, Reduction, Refinement) urges to continuously test and evaluate new and updated biologging protocols. Here, we propose alternative and promising techniques for emperor penguin (Aptenodytes forsteri) capture and on-site logger deployment that aim to mitigate the potential negative impacts of logger deployment on these birds. We equipped adult emperor penguins for short-term (GPS, Time-Depth Recorder (TDR)) and long-term (i.e. planned for one year) deployments (ARGOS platforms, TDR), as well as juvenile emperor penguins for long-term deployments (ARGOS platforms) in the Weddell Sea area where they had not yet been studied. We describe and qualitatively evaluate our protocols for the attachment of biologgers on-site at the colony, the capture of the animals and the recovery of the devices after deployment. We report unprecedented recaptures of long-term equipped adult emperor penguins (50% of equipped individuals recaptured after 290 days). Our data demonstrate that the traditional technique of long-term attachment by gluing the biologgers directly to the back feathers causes excessive feather breakage and the loss of the devices after a few months. We therefore propose an alternative method of attachment for back-mounted devices. This technique led to successful year-round deployments on 37.5% of the equipped juveniles. Finally, we also disclose the first deployments of leg-bracelet mounted TDRs on emperor penguins. Our findings highlight the importance of monitoring potential impacts of biologger deployments on the animals and the need to continue to improve methods to minimize disturbance and enhance performance and results.

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Conflict of interest statement

The authors declare that they have no competing interests.

Figures

**Fig 1. Required tools to capture emperor penguins.**
**(A)** An adult-chick pair inside the corral. **(B)** A 3 m long bamboo stick at the top, one of the panel of the corral (a 50 cm ruler is placed just above it to facilitate scaling) in the middle, and the crook at the bottom. The crook is the right extremity of the pole while the left extremity is a hook.

**Fig 2. Pictures of the different deployments performed.**
**(A)** Adult emperor penguin equipped with back-taped loggers (a TDR in the middle of the back and a GPS underneath). The green line on the bird’s belly is non-permanent marking. **(B)** Adult emperor penguin equipped with back-glued loggers (an accelerometer in the middle of the back and ARGOS satellite transmitter underneath) and a leg-banded logger on its right foot. **(C)** Juvenile emperor penguins both equipped with a back-taped-epoxied logger.

**Fig 3. Back of the 4 penguins having lost their back-glued loggers during the winter.**

See this image and copyright information in PMC

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Biologging of emperor penguins-Attachment techniques and associated deployment performance

Affiliations

Biologging of emperor penguins-Attachment techniques and associated deployment performance

Authors

Affiliations

Abstract

Conflict of interest statement

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