Epigenetic aging of humpback whales in three oceans

Age is a key parameter in population ecology, but rarely known in whale populations. We used an epigenetic assay based on DNA methylation levels at three CpG sites to estimate the age of 1,013 humpback whales skin samples obtained from 1993 through 2014. The assay was calibrated with 76 individuals...

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Main Authors: Robbins, Jooke, Polanowski, Andrea, Barco, Susan, Bérubé, Martine, Chandler, David, Clapham, Philip, George, Clay, Jackson, Katharine, Mattila, David, Palsboll, Per, Pitchford, Tom, Steel, Debbie, Tackaberry, Jennifer, Jarman, Simon
Format: Conference Object
Language:English
Published: 2017
Subjects:
Pacific
North Atlantic
Online Access:https://hdl.handle.net/11370/7d5631d0-20c8-47c4-a009-3cfeffe48e3c
https://research.rug.nl/en/publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c
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record_format openpolar
spelling ftunigroningenpu:oai:pure.rug.nl:publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c 2024-06-02T08:11:18+00:00 Epigenetic aging of humpback whales in three oceans Robbins, Jooke Polanowski, Andrea Barco, Susan Bérubé, Martine Chandler, David Clapham, Philip George, Clay Jackson, Katharine Mattila, David Palsboll, Per Pitchford, Tom Steel, Debbie Tackaberry, Jennifer Jarman, Simon 2017-10-22 https://hdl.handle.net/11370/7d5631d0-20c8-47c4-a009-3cfeffe48e3c https://research.rug.nl/en/publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c eng eng https://research.rug.nl/en/publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c info:eu-repo/semantics/restrictedAccess Robbins , J , Polanowski , A , Barco , S , Bérubé , M , Chandler , D , Clapham , P , George , C , Jackson , K , Mattila , D , Palsboll , P , Pitchford , T , Steel , D , Tackaberry , J & Jarman , S 2017 , ' Epigenetic aging of humpback whales in three oceans ' , 22nd Biennial Conference on the Biology of Marine Mammals , Halifax , Canada , 22/10/2017 - 27/10/2017 . conferenceObject 2017 ftunigroningenpu 2024-05-07T20:19:49Z Age is a key parameter in population ecology, but rarely known in whale populations. We used an epigenetic assay based on DNA methylation levels at three CpG sites to estimate the age of 1,013 humpback whales skin samples obtained from 1993 through 2014. The assay was calibrated with 76 individuals of known age (<1 to 30 years) and had an R2=0.718 (p=2.88e-22) and a standard deviation of 3.562 years. Samples of unknown exact age were obtained from one feeding ground (the Gulf of Maine, n=609), one extralimital wintering area off the southeast U.S. (n=33) and breeding grounds in the North Atlantic (West Indies, n=122), the North Pacific (Hawaii, n=41) and the South Pacific (American Samoa, n=115). The maximum estimated age at the time of sampling was 50.9 years. Two females, both from the Gulf of Maine, reached the maximum observed age of 64 years when later re-sighted (one with a dependent calf in 2016). Whales of both sexes in the Gulf of Maine were younger on average than in those in the West Indies, and whales sampled off the southeast U.S. coast in winter were younger than both North Atlantic feeding and breeding populations. Together, these results suggest a lower tendency of juveniles to undertake or complete migration to the breeding grounds. Age frequency differences among oceanic breeding populations were generally consistent with historical exploitation histories, but not clearly indicative of recovery. This is the first study of age in live humpback whales based on large sample sizes and multiple populations. Epigenetic aging has broad potential to advance understanding of whale biology and ecology and to facilitate conservation. Despite its average precision, we recommend caution when applying this assay to small sample sizes and individual case studies Conference Object North Atlantic University of Groningen research database Pacific
institution Open Polar
collection University of Groningen research database
op_collection_id ftunigroningenpu
language English
description Age is a key parameter in population ecology, but rarely known in whale populations. We used an epigenetic assay based on DNA methylation levels at three CpG sites to estimate the age of 1,013 humpback whales skin samples obtained from 1993 through 2014. The assay was calibrated with 76 individuals of known age (<1 to 30 years) and had an R2=0.718 (p=2.88e-22) and a standard deviation of 3.562 years. Samples of unknown exact age were obtained from one feeding ground (the Gulf of Maine, n=609), one extralimital wintering area off the southeast U.S. (n=33) and breeding grounds in the North Atlantic (West Indies, n=122), the North Pacific (Hawaii, n=41) and the South Pacific (American Samoa, n=115). The maximum estimated age at the time of sampling was 50.9 years. Two females, both from the Gulf of Maine, reached the maximum observed age of 64 years when later re-sighted (one with a dependent calf in 2016). Whales of both sexes in the Gulf of Maine were younger on average than in those in the West Indies, and whales sampled off the southeast U.S. coast in winter were younger than both North Atlantic feeding and breeding populations. Together, these results suggest a lower tendency of juveniles to undertake or complete migration to the breeding grounds. Age frequency differences among oceanic breeding populations were generally consistent with historical exploitation histories, but not clearly indicative of recovery. This is the first study of age in live humpback whales based on large sample sizes and multiple populations. Epigenetic aging has broad potential to advance understanding of whale biology and ecology and to facilitate conservation. Despite its average precision, we recommend caution when applying this assay to small sample sizes and individual case studies
format Conference Object
author Robbins, Jooke
Polanowski, Andrea
Barco, Susan
Bérubé, Martine
Chandler, David
Clapham, Philip
George, Clay
Jackson, Katharine
Mattila, David
Palsboll, Per
Pitchford, Tom
Steel, Debbie
Tackaberry, Jennifer
Jarman, Simon
spellingShingle Robbins, Jooke
Polanowski, Andrea
Barco, Susan
Bérubé, Martine
Chandler, David
Clapham, Philip
George, Clay
Jackson, Katharine
Mattila, David
Palsboll, Per
Pitchford, Tom
Steel, Debbie
Tackaberry, Jennifer
Jarman, Simon
Epigenetic aging of humpback whales in three oceans
author_facet Robbins, Jooke
Polanowski, Andrea
Barco, Susan
Bérubé, Martine
Chandler, David
Clapham, Philip
George, Clay
Jackson, Katharine
Mattila, David
Palsboll, Per
Pitchford, Tom
Steel, Debbie
Tackaberry, Jennifer
Jarman, Simon
author_sort Robbins, Jooke
title Epigenetic aging of humpback whales in three oceans
title_short Epigenetic aging of humpback whales in three oceans
title_full Epigenetic aging of humpback whales in three oceans
title_fullStr Epigenetic aging of humpback whales in three oceans
title_full_unstemmed Epigenetic aging of humpback whales in three oceans
title_sort epigenetic aging of humpback whales in three oceans
publishDate 2017
url https://hdl.handle.net/11370/7d5631d0-20c8-47c4-a009-3cfeffe48e3c
https://research.rug.nl/en/publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c
geographic Pacific
geographic_facet Pacific
genre North Atlantic
genre_facet North Atlantic
op_source Robbins , J , Polanowski , A , Barco , S , Bérubé , M , Chandler , D , Clapham , P , George , C , Jackson , K , Mattila , D , Palsboll , P , Pitchford , T , Steel , D , Tackaberry , J & Jarman , S 2017 , ' Epigenetic aging of humpback whales in three oceans ' , 22nd Biennial Conference on the Biology of Marine Mammals , Halifax , Canada , 22/10/2017 - 27/10/2017 .
op_relation https://research.rug.nl/en/publications/7d5631d0-20c8-47c4-a009-3cfeffe48e3c
op_rights info:eu-repo/semantics/restrictedAccess
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