No distinct local cuisines among humpback whales: A population diet comparison in the Southern Hemisphere

Jasmin Groß; Rita M. Franco-Santos; Patti Virtue; Peter D. Nichols; John Totterdell; Milton C.C. Marcondes; Claire Garrigue; Natalia Botero-Acosta; Fredrik Christiansen; Juliana Castrillon; Susana J. Caballero; Ari S. Friedlaender; So Kawaguchi; Michael C. Double; Elanor M. Bell; Ryosuke Makabe; Masato Moteki; Nils Hoem; Brian Fry; Michele Burford; Susan Bengtson Nash

doi:10.1016/j.scitotenv.2024.172939

No distinct local cuisines among humpback whales: A population diet comparison in the Southern Hemisphere

Jasmin Groß
, Rita M. Franco-Santos
, Patti Virtue
, Peter D. Nichols
, John Totterdell
, Milton C.C. Marcondes
, Claire Garrigue
, Natalia Botero-Acosta
, Fredrik Christiansen
, Juliana Castrillon
, Susana J. Caballero
, Ari S. Friedlaender
, So Kawaguchi
, Michael C. Double
, Elanor M. Bell
, Ryosuke Makabe
, Masato Moteki
, Nils Hoem
, Brian Fry
, Michele Burford

Susan Bengtson Nash

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

Abstract

Southern hemisphere humpback whale (Megaptera novaeangliae, SHHW) breeding populations follow a high-fidelity Antarctic krill (Euphausia superba) diet while feeding in distinct sectors of the Southern Ocean. Their capital breeding life history requires predictable ecosystem productivity to fuel migration and migration-related behaviours. It is therefore postulated that populations feeding in areas subject to the strongest climate change impacts are more likely to show the first signs of a departure from a high-fidelity krill diet. We tested this hypothesis by investigating blubber fatty acid profiles and skin stable isotopes obtained from five SHHW populations in 2019, and comparing them to Antarctic krill stable isotopes sampled in three SHHW feeding areas in the Southern Ocean in 2019. Fatty acid profiles and δ13C and δ15N varied significantly among all five populations, however, calculated trophic positions did not (2.7 to 3.1). Similarly, fatty acid ratios, 16:1ω7c/16:0 and 20:5ω3/22:6ω3 were above 1, showing that whales from all five populations are secondary heterotrophs following an omnivorous diet with a diatom-origin. Thus, evidence for a potential departure from a high-fidelity Antarctic krill diet was not seen in any population. δ13C of all populations were similar to δ13C of krill sampled in productive upwelling areas or the marginal sea-ice zone. Consistency in trophic position and diet origin but significant fatty acid and stable isotope differences demonstrate that the observed variability arises at lower trophic levels. Our results indicate that, at present, there is no evidence of a divergence from a high-fidelity krill diet. Nevertheless, the characteristic isotopic signal of whales feeding in productive upwelling areas, or in the marginal sea-ice zone, implies that future cryosphere reductions could impact their feeding ecology.

Original language	English
Article number	172939
Number of pages	11
Journal	Science of The Total Environment
Volume	931
DOIs	https://doi.org/10.1016/j.scitotenv.2024.172939
State	Published - Jun 25 2024
Externally published	Yes

Bibliographical note

Funding

This work was in part supported by the International Whaling Commission (IWC)-Southern Ocean Research Partnership (IWC-SORP) grants (2018, 2020), the Winifred Violet Scott Trust, and the Holsworth Research Endowment. Projeto Baleia Jubarte is sponsored by Petroleo Brasileiro S.A. (Petrobras). The research was also supported by the Cooperative Program (No. 157, 2019) of Atmosphere and Ocean Research Institute at the University of Tokyo. The authors thank the Moreton Bay Research Station staff, the Southern Ocean Persistent Organic Pollutants Program volunteers, and all other volunteers for their assistance in the field. The authors also thank the Australian Antarctic Division (AAD) for their support of the 2019 ENRICH voyage upon which krill samples were collected and to the CSIRO Marine National Facility (MNF) for its support in the form of sea time on RV Investigator. Captain and crew of Aker BioMarine Antarctic fishing fleet are also acknowledged for supplied krill samples. Feedback from the reviewers has greatly assisted the readability of the manuscript. Finally, the authors acknowledge the traditional custodians of the lands where samples were collected, and laboratory work was carried out. The authors pay respect to all Aboriginal, Torres Strait Islander, Afro-descendants of the community councils in Tribugá Gulf, Columbia, and First Nations peoples in the respective countries, and extend that respect to Elders past, present and emerging.

Keywords

Antarctic krill
climate change
diet
fatty acids
stable isotopes
sentinel species
Antarctic Regions
Euphausiacea
Humpback Whale
Animals
Climate Change
Diet
Fatty Acids/analysis
Nitrogen Isotopes/analysis
Carbon Isotopes/analysis
Fatty acids
Sentinel species
Climate change
Stable isotopes

Disciplines

Marine Biology

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https://archimer.ifremer.fr/doc/00889/100050/110296.pdf

Cite this

Groß, J., Franco-Santos, R. M., Virtue, P., Nichols, P. D., Totterdell, J., Marcondes, M. C. C., Garrigue, C., Botero-Acosta, N., Christiansen, F., Castrillon, J., Caballero, S. J., Friedlaender, A. S., Kawaguchi, S., Double, M. C., Bell, E. M., Makabe, R., Moteki, M., Hoem, N., Fry, B., ... Bengtson Nash, S. (2024). No distinct local cuisines among humpback whales: A population diet comparison in the Southern Hemisphere. Science of The Total Environment, 931, Article 172939. https://doi.org/10.1016/j.scitotenv.2024.172939

Groß, J, Franco-Santos, RM, Virtue, P, Nichols, PD, Totterdell, J, Marcondes, MCC, Garrigue, C, Botero-Acosta, N, Christiansen, F, Castrillon, J, Caballero, SJ, Friedlaender, AS, Kawaguchi, S, Double, MC, Bell, EM, Makabe, R, Moteki, M, Hoem, N, Fry, B, Burford, M & Bengtson Nash, S 2024, 'No distinct local cuisines among humpback whales: A population diet comparison in the Southern Hemisphere', Science of The Total Environment, vol. 931, 172939. https://doi.org/10.1016/j.scitotenv.2024.172939

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abstract = "Southern hemisphere humpback whale (Megaptera novaeangliae, SHHW) breeding populations follow a high-fidelity Antarctic krill (Euphausia superba) diet while feeding in distinct sectors of the Southern Ocean. Their capital breeding life history requires predictable ecosystem productivity to fuel migration and migration-related behaviours. It is therefore postulated that populations feeding in areas subject to the strongest climate change impacts are more likely to show the first signs of a departure from a high-fidelity krill diet. We tested this hypothesis by investigating blubber fatty acid profiles and skin stable isotopes obtained from five SHHW populations in 2019, and comparing them to Antarctic krill stable isotopes sampled in three SHHW feeding areas in the Southern Ocean in 2019. Fatty acid profiles and δ13C and δ15N varied significantly among all five populations, however, calculated trophic positions did not (2.7 to 3.1). Similarly, fatty acid ratios, 16:1ω7c/16:0 and 20:5ω3/22:6ω3 were above 1, showing that whales from all five populations are secondary heterotrophs following an omnivorous diet with a diatom-origin. Thus, evidence for a potential departure from a high-fidelity Antarctic krill diet was not seen in any population. δ13C of all populations were similar to δ13C of krill sampled in productive upwelling areas or the marginal sea-ice zone. Consistency in trophic position and diet origin but significant fatty acid and stable isotope differences demonstrate that the observed variability arises at lower trophic levels. Our results indicate that, at present, there is no evidence of a divergence from a high-fidelity krill diet. Nevertheless, the characteristic isotopic signal of whales feeding in productive upwelling areas, or in the marginal sea-ice zone, implies that future cryosphere reductions could impact their feeding ecology.",

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AU - Groß, Jasmin

AU - Franco-Santos, Rita M.

AU - Virtue, Patti

AU - Nichols, Peter D.

AU - Totterdell, John

AU - Marcondes, Milton C.C.

AU - Garrigue, Claire

AU - Botero-Acosta, Natalia

AU - Christiansen, Fredrik

AU - Castrillon, Juliana

AU - Caballero, Susana J.

AU - Friedlaender, Ari S.

AU - Kawaguchi, So

AU - Double, Michael C.

AU - Bell, Elanor M.

AU - Makabe, Ryosuke

AU - Moteki, Masato

AU - Hoem, Nils

AU - Fry, Brian

AU - Burford, Michele

AU - Bengtson Nash, Susan

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KW - Animals

KW - Climate Change

KW - Diet

KW - Fatty Acids/analysis

KW - Nitrogen Isotopes/analysis

KW - Carbon Isotopes/analysis

KW - Fatty acids

KW - Sentinel species

KW - Climate change

KW - Stable isotopes

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DO - 10.1016/j.scitotenv.2024.172939

M3 - Article

C2 - 38701928

SN - 0048-9697

VL - 931

JO - Science of The Total Environment

JF - Science of The Total Environment

M1 - 172939

ER -

No distinct local cuisines among humpback whales: A population diet comparison in the Southern Hemisphere

Abstract

Bibliographical note

Funding

Keywords

Disciplines

Access to Document

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Cite this