Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change

Andrea S. Grunst; Melissa L. Grunst; David Grémillet; Akiko Kato; Paco Bustamante; Céline Albert; Émile Brisson-Curadeau; Manon Clairbaux; Marta Cruz-Flores; Sophie Gentès; Samuel Perret; Eric Ste-Marie; Katarzyna Wojczulanis-Jakubas; Jérôme Fort

doi:10.1021/acs.est.2c08893

Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change

Andrea S. Grunst
, Melissa L. Grunst
, David Grémillet
, Akiko Kato
, Paco Bustamante
, Céline Albert
, Émile Brisson-Curadeau
, Manon Clairbaux
, Marta Cruz-Flores
, Sophie Gentès
, Samuel Perret
, Eric Ste-Marie
, Katarzyna Wojczulanis-Jakubas
, Jérôme Fort

School of Biological, Earth and Environmental Sciences

Research output: Contribution to journal › Article › peer-review

Abstract

Combined effects of multiple, climate change-associated stressors are of mounting concern, especially in Arctic ecosystems. Elevated mercury (Hg) exposure in Arctic animals could affect behavioral responses to changes in foraging landscapes caused by climate change, generating interactive effects on behavior and population resilience. We investigated this hypothesis in little auks (Alle alle), a keystone Arctic seabird. We compiled behavioral data for 44 birds across 5 years using accelerometers while also quantifying blood Hg and environmental conditions. Warm sea surface temperature (SST) and low sea ice coverage reshaped time activity budgets (TABs) and diving patterns, causing decreased resting, increased flight, and longer dives. Mercury contamination was not associated with TABs. However, highly contaminated birds lengthened interdive breaks when making long dives, suggesting Hg-induced physiological limitations. As dive durations increased with warm SST, subtle toxicological effects threaten to increasingly constrain diving and foraging efficiency as climate change progresses, with ecosystem-wide repercussions.

Original language	English
Pages (from-to)	2054-2063
Number of pages	10
Journal	Environmental Science and Technology
Volume	57
Issue number	5
DOIs	https://doi.org/10.1021/acs.est.2c08893
Publication status	Published - 7 Feb 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being
SDG 13 Climate Action
SDG 14 Life Below Water

Keywords

behavioral ecotoxicology
behavioral plasticity
climate change
diving behavior
mercury (Hg)
multiple stressors
toxicant-induced climate change sensitivity

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10.1021/acs.est.2c08893

Cite this

Grunst, A. S., Grunst, M. L., Grémillet, D., Kato, A., Bustamante, P., Albert, C., Brisson-Curadeau, É., Clairbaux, M., Cruz-Flores, M., Gentès, S., Perret, S., Ste-Marie, E., Wojczulanis-Jakubas, K., & Fort, J. (2023). Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change. Environmental Science and Technology, 57(5), 2054-2063. https://doi.org/10.1021/acs.est.2c08893

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abstract = "Combined effects of multiple, climate change-associated stressors are of mounting concern, especially in Arctic ecosystems. Elevated mercury (Hg) exposure in Arctic animals could affect behavioral responses to changes in foraging landscapes caused by climate change, generating interactive effects on behavior and population resilience. We investigated this hypothesis in little auks (Alle alle), a keystone Arctic seabird. We compiled behavioral data for 44 birds across 5 years using accelerometers while also quantifying blood Hg and environmental conditions. Warm sea surface temperature (SST) and low sea ice coverage reshaped time activity budgets (TABs) and diving patterns, causing decreased resting, increased flight, and longer dives. Mercury contamination was not associated with TABs. However, highly contaminated birds lengthened interdive breaks when making long dives, suggesting Hg-induced physiological limitations. As dive durations increased with warm SST, subtle toxicological effects threaten to increasingly constrain diving and foraging efficiency as climate change progresses, with ecosystem-wide repercussions.",

keywords = "behavioral ecotoxicology, behavioral plasticity, climate change, diving behavior, mercury (Hg), multiple stressors, toxicant-induced climate change sensitivity",

author = "Grunst, \{Andrea S.\} and Grunst, \{Melissa L.\} and David Gr{\'e}millet and Akiko Kato and Paco Bustamante and C{\'e}line Albert and {\'E}mile Brisson-Curadeau and Manon Clairbaux and Marta Cruz-Flores and Sophie Gent{\`e}s and Samuel Perret and Eric Ste-Marie and Katarzyna Wojczulanis-Jakubas and J{\'e}r{\^o}me Fort",

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Grunst, AS, Grunst, ML, Grémillet, D, Kato, A, Bustamante, P, Albert, C, Brisson-Curadeau, É, Clairbaux, M, Cruz-Flores, M, Gentès, S, Perret, S, Ste-Marie, E, Wojczulanis-Jakubas, K & Fort, J 2023, 'Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change', Environmental Science and Technology, vol. 57, no. 5, pp. 2054-2063. https://doi.org/10.1021/acs.est.2c08893

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T1 - Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change

AU - Grunst, Andrea S.

AU - Grunst, Melissa L.

AU - Grémillet, David

AU - Kato, Akiko

AU - Bustamante, Paco

AU - Albert, Céline

AU - Brisson-Curadeau, Émile

AU - Clairbaux, Manon

AU - Cruz-Flores, Marta

AU - Gentès, Sophie

AU - Perret, Samuel

AU - Ste-Marie, Eric

AU - Wojczulanis-Jakubas, Katarzyna

AU - Fort, Jérôme

PY - 2023/2/7

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N2 - Combined effects of multiple, climate change-associated stressors are of mounting concern, especially in Arctic ecosystems. Elevated mercury (Hg) exposure in Arctic animals could affect behavioral responses to changes in foraging landscapes caused by climate change, generating interactive effects on behavior and population resilience. We investigated this hypothesis in little auks (Alle alle), a keystone Arctic seabird. We compiled behavioral data for 44 birds across 5 years using accelerometers while also quantifying blood Hg and environmental conditions. Warm sea surface temperature (SST) and low sea ice coverage reshaped time activity budgets (TABs) and diving patterns, causing decreased resting, increased flight, and longer dives. Mercury contamination was not associated with TABs. However, highly contaminated birds lengthened interdive breaks when making long dives, suggesting Hg-induced physiological limitations. As dive durations increased with warm SST, subtle toxicological effects threaten to increasingly constrain diving and foraging efficiency as climate change progresses, with ecosystem-wide repercussions.

AB - Combined effects of multiple, climate change-associated stressors are of mounting concern, especially in Arctic ecosystems. Elevated mercury (Hg) exposure in Arctic animals could affect behavioral responses to changes in foraging landscapes caused by climate change, generating interactive effects on behavior and population resilience. We investigated this hypothesis in little auks (Alle alle), a keystone Arctic seabird. We compiled behavioral data for 44 birds across 5 years using accelerometers while also quantifying blood Hg and environmental conditions. Warm sea surface temperature (SST) and low sea ice coverage reshaped time activity budgets (TABs) and diving patterns, causing decreased resting, increased flight, and longer dives. Mercury contamination was not associated with TABs. However, highly contaminated birds lengthened interdive breaks when making long dives, suggesting Hg-induced physiological limitations. As dive durations increased with warm SST, subtle toxicological effects threaten to increasingly constrain diving and foraging efficiency as climate change progresses, with ecosystem-wide repercussions.

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KW - behavioral plasticity

KW - climate change

KW - diving behavior

KW - mercury (Hg)

KW - multiple stressors

KW - toxicant-induced climate change sensitivity

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SN - 0013-936X

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JO - Environmental Science and Technology

JF - Environmental Science and Technology

IS - 5

ER -

Mercury Contamination Challenges the Behavioral Response of a Keystone Species to Arctic Climate Change

Abstract

UN SDGs

Keywords

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