Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales

Obtaining direct measurements to characterise ecosystem function can be hindered by remote or inaccessible regions. Next-generation satellite tags that inform increasingly sophisticated movement models, and the miniaturisation of animal-borne loggers, have enabled the use of animals as tools to coll...

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Main Authors: Riekkola, L., Zerbini, A. N., Andrews, O., Andrews-Goff, V., Baker, C. S., Chandler, D., Childerhouse, S., Clapham, P., Dodemont, R., Donnelly, D., Friedlaender, A., Gallego, R., /Garrigue, Claire, Ivashchenko, Y., Jarman, S., Lindsay, R., Pallin, L., Robbins, J., Steel, D., Tremlett, J., Vindenes, S., Constantine, R.
Format: Text
Language:English
Published: 2018
Subjects:
Satellite telemetry
Epigenetic aging
Progesterone
Spatial ecology
Multi-disciplinary
Humpback whale
Antarc*
Antarctic
Antarctique*
Humpback Whale
Megaptera novaeangliae
Ross Sea
Southern Ocean
Online Access:https://www.documentation.ird.fr/hor/fdi:010072806
id ftird:oai:ird.fr:fdi:010072806
record_format openpolar
spelling ftird:oai:ird.fr:fdi:010072806 2024-09-15T17:48:00+00:00 Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales Riekkola, L. Zerbini, A. N. Andrews, O. Andrews-Goff, V. Baker, C. S. Chandler, D. Childerhouse, S. Clapham, P. Dodemont, R. Donnelly, D. Friedlaender, A. Gallego, R. /Garrigue, Claire Ivashchenko, Y. Jarman, S. Lindsay, R. Pallin, L. Robbins, J. Steel, D. Tremlett, J. Vindenes, S. Constantine, R. OCEAN AUSTRAL ANTARCTIQUE NOUVELLE ZELANDE 2018 https://www.documentation.ird.fr/hor/fdi:010072806 EN eng https://www.documentation.ird.fr/hor/fdi:010072806 oai:ird.fr:fdi:010072806 Riekkola L., Zerbini A. N., Andrews O., Andrews-Goff V., Baker C. S., Chandler D., Childerhouse S., Clapham P., Dodemont R., Donnelly D., Friedlaender A., Gallego R., Garrigue Claire, Ivashchenko Y., Jarman S., Lindsay R., Pallin L., Robbins J., Steel D., Tremlett J., Vindenes S., Constantine R. Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales. 2018, 89, p. 455-465 Satellite telemetry Epigenetic aging Progesterone Spatial ecology Multi-disciplinary Humpback whale text 2018 ftird 2024-08-15T05:57:41Z Obtaining direct measurements to characterise ecosystem function can be hindered by remote or inaccessible regions. Next-generation satellite tags that inform increasingly sophisticated movement models, and the miniaturisation of animal-borne loggers, have enabled the use of animals as tools to collect habitat data in remote environments, such as the Southern Ocean. Research on the distribution, habitat use and recovery of Oceania's humpback whales (Megaptera novaeangliae) has been constrained by the inaccessibility to their Antarctic feeding grounds and the limitations of technology. In this multi-disciplinary study, we combine innovative analytical tools to comprehensively assess the distribution and population structure of this marine predator throughout their entire migratory range. We used genotype and photo-identification matches and conducted a genetic mixed-stock analysis to identify the breeding ground origins of humpback whales migrating past the Kermadec Islands, New Zealand. Satellite tracking data and a state-space model were then used to identify the migratory paths and behaviour of 18 whales, and to reveal their Antarctic feeding ground destinations. Additionally, we conducted progesterone assays and epigenetic aging to determine the pregnancy rate and age-profile of the population. Humpback whales passing the Kermadec Islands did not assign to a single breeding ground origin, but instead came from a range of breeding grounds spanning similar to 3500 km of ocean. Sampled whales ranged from calves to adults of up to 67 years of age, and a pregnancy rate of 57% was estimated from 30 adult females. The whales migrated to the Southern Ocean (straight-line distances of up to 7000 km) and spanned similar to 4500 km across their Antarctic feeding grounds. All fully tracked females with a dependent calf (n = 4) migrated to the Ross Sea region, while 70% of adults without calves (n = 7) travelled further east to the Amundsen and Bellingshausen Seas region. By combining multiple research and analytical ... Text Antarc* Antarctic Antarctique* Humpback Whale Megaptera novaeangliae Ross Sea Southern Ocean IRD (Institute de recherche pour le développement): Horizon
institution Open Polar
collection IRD (Institute de recherche pour le développement): Horizon
op_collection_id ftird
language English
topic Satellite telemetry
Epigenetic aging
Progesterone
Spatial ecology
Multi-disciplinary
Humpback whale
spellingShingle Satellite telemetry
Epigenetic aging
Progesterone
Spatial ecology
Multi-disciplinary
Humpback whale
Riekkola, L.
Zerbini, A. N.
Andrews, O.
Andrews-Goff, V.
Baker, C. S.
Chandler, D.
Childerhouse, S.
Clapham, P.
Dodemont, R.
Donnelly, D.
Friedlaender, A.
Gallego, R.
/Garrigue, Claire
Ivashchenko, Y.
Jarman, S.
Lindsay, R.
Pallin, L.
Robbins, J.
Steel, D.
Tremlett, J.
Vindenes, S.
Constantine, R.
Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
topic_facet Satellite telemetry
Epigenetic aging
Progesterone
Spatial ecology
Multi-disciplinary
Humpback whale
description Obtaining direct measurements to characterise ecosystem function can be hindered by remote or inaccessible regions. Next-generation satellite tags that inform increasingly sophisticated movement models, and the miniaturisation of animal-borne loggers, have enabled the use of animals as tools to collect habitat data in remote environments, such as the Southern Ocean. Research on the distribution, habitat use and recovery of Oceania's humpback whales (Megaptera novaeangliae) has been constrained by the inaccessibility to their Antarctic feeding grounds and the limitations of technology. In this multi-disciplinary study, we combine innovative analytical tools to comprehensively assess the distribution and population structure of this marine predator throughout their entire migratory range. We used genotype and photo-identification matches and conducted a genetic mixed-stock analysis to identify the breeding ground origins of humpback whales migrating past the Kermadec Islands, New Zealand. Satellite tracking data and a state-space model were then used to identify the migratory paths and behaviour of 18 whales, and to reveal their Antarctic feeding ground destinations. Additionally, we conducted progesterone assays and epigenetic aging to determine the pregnancy rate and age-profile of the population. Humpback whales passing the Kermadec Islands did not assign to a single breeding ground origin, but instead came from a range of breeding grounds spanning similar to 3500 km of ocean. Sampled whales ranged from calves to adults of up to 67 years of age, and a pregnancy rate of 57% was estimated from 30 adult females. The whales migrated to the Southern Ocean (straight-line distances of up to 7000 km) and spanned similar to 4500 km across their Antarctic feeding grounds. All fully tracked females with a dependent calf (n = 4) migrated to the Ross Sea region, while 70% of adults without calves (n = 7) travelled further east to the Amundsen and Bellingshausen Seas region. By combining multiple research and analytical ...
format Text
author Riekkola, L.
Zerbini, A. N.
Andrews, O.
Andrews-Goff, V.
Baker, C. S.
Chandler, D.
Childerhouse, S.
Clapham, P.
Dodemont, R.
Donnelly, D.
Friedlaender, A.
Gallego, R.
/Garrigue, Claire
Ivashchenko, Y.
Jarman, S.
Lindsay, R.
Pallin, L.
Robbins, J.
Steel, D.
Tremlett, J.
Vindenes, S.
Constantine, R.
author_facet Riekkola, L.
Zerbini, A. N.
Andrews, O.
Andrews-Goff, V.
Baker, C. S.
Chandler, D.
Childerhouse, S.
Clapham, P.
Dodemont, R.
Donnelly, D.
Friedlaender, A.
Gallego, R.
/Garrigue, Claire
Ivashchenko, Y.
Jarman, S.
Lindsay, R.
Pallin, L.
Robbins, J.
Steel, D.
Tremlett, J.
Vindenes, S.
Constantine, R.
author_sort Riekkola, L.
title Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
title_short Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
title_full Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
title_fullStr Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
title_full_unstemmed Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales
title_sort application of a multi-disciplinary approach to reveal population structure and southern ocean feeding grounds of humpback whales
publishDate 2018
url https://www.documentation.ird.fr/hor/fdi:010072806
op_coverage OCEAN AUSTRAL
ANTARCTIQUE
NOUVELLE ZELANDE
genre Antarc*
Antarctic
Antarctique*
Humpback Whale
Megaptera novaeangliae
Ross Sea
Southern Ocean
genre_facet Antarc*
Antarctic
Antarctique*
Humpback Whale
Megaptera novaeangliae
Ross Sea
Southern Ocean
op_relation https://www.documentation.ird.fr/hor/fdi:010072806
oai:ird.fr:fdi:010072806
Riekkola L., Zerbini A. N., Andrews O., Andrews-Goff V., Baker C. S., Chandler D., Childerhouse S., Clapham P., Dodemont R., Donnelly D., Friedlaender A., Gallego R., Garrigue Claire, Ivashchenko Y., Jarman S., Lindsay R., Pallin L., Robbins J., Steel D., Tremlett J., Vindenes S., Constantine R. Application of a multi-disciplinary approach to reveal population structure and Southern Ocean feeding grounds of humpback whales. 2018, 89, p. 455-465
_version_ 1810288661078474752

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