Strong and lasting impacts of past global warming on baleen whales and their prey

Andrea A. Cabrera; Elena Schall; Martine Bérubé; Pia Anderwald; Lutz Bachmann; Simon Berrow; Peter B. Best; Phillip J. Clapham; Haydée A. Cunha; Luciano Dalla Rosa; Carolina Dias; Kenneth P. Findlay; Tore Haug; Mads Peter Heide-Jørgensen; A. Rus Hoelzel; Kit M. Kovacs; Scott Landry; Finn Larsen; Xênia M. Lopes; Christian Lydersen; David K. Mattila; Tom Oosting; Richard M. Pace; Chiara Papetti; Angeliki Paspati; Luis A. Pastene; Rui Prieto; Christian Ramp; Jooke Robbins; Richard Sears; Eduardo R. Secchi; Mónica A. Silva; Malene Simon; Gísli Víkingsson; Øystein Wiig; Nils Øien; Per J. Palsbøll

doi:10.1111/gcb.16085

Strong and lasting impacts of past global warming on baleen whales and their prey

Andrea A. Cabrera^*
, Elena Schall
, Martine Bérubé
, Pia Anderwald
, Lutz Bachmann
, Simon Berrow
, Peter B. Best
, Phillip J. Clapham
, Haydée A. Cunha
, Luciano Dalla Rosa
, Carolina Dias
, Kenneth P. Findlay
, Tore Haug
, Mads Peter Heide-Jørgensen
, A. Rus Hoelzel
, Kit M. Kovacs
, Scott Landry
, Finn Larsen
, Xênia M. Lopes
, Christian Lydersen

David K. Mattila, Tom Oosting, Richard M. Pace, Chiara Papetti, Angeliki Paspati, Luis A. Pastene, Rui Prieto, Christian Ramp, Jooke Robbins, Richard Sears, Eduardo R. Secchi, Mónica A. Silva, Malene Simon, Gísli Víkingsson, Øystein Wiig, Nils Øien, Per J. Palsbøll^*

^*Corresponding author for this work

University of Groningen
Center for Coastal Studies
Swiss National Park
University of Oslo
Galway - Mayo Institute of Technology
University of Pretoria
Seastar Scientific Inc.
Rio de Janeiro State University
Federal University of Rio Grande do Sul
Institute of Marine Research
Greenland Institute of Natural Resources
Durham University
Norwegian Polar Institute
National Oceanic and Atmospheric Administration
University of Padua
Institute of Cetacean Research
University of the Azores
University of St Andrews
Marine and Freshwater Research Institute

Research output: Contribution to journal › Journal article › Research › peer-review

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Abstract

Global warming is affecting the population dynamics and trophic interactions across a wide range of ecosystems and habitats. Translating these real-time effects into their long-term consequences remains a challenge. The rapid and extreme warming period that occurred after the Last Glacial Maximum (LGM) during the Pleistocene-Holocene transition (7-12 thousand years ago) provides an opportunity to gain insights into the long-term responses of natural populations to periods with global warming. The effects of this post-LGM warming period have been assessed in many terrestrial taxa, whereas insights into the impacts of rapid global warming on marine taxa remain limited, especially for megafauna. In order to understand how large-scale climate fluctuations during the post-LGM affected baleen whales and their prey, we conducted an extensive, large-scale analysis of the long-term effects of the post-LGM warming on abundance and inter-ocean connectivity in eight baleen whale and seven prey (fish and invertebrates) species across the Southern and the North Atlantic Ocean; two ocean basins that differ in key oceanographic features. The analysis was based upon 7032 mitochondrial DNA sequences as well as genome-wide DNA sequence variation in 100 individuals. The estimated temporal changes in genetic diversity during the last 30,000 years indicated that most baleen whale populations underwent post-LGM expansions in both ocean basins. The increase in baleen whale abundance during the Holocene was associated with simultaneous changes in their prey and climate. Highly correlated, synchronized and exponential increases in abundance in both baleen whales and their prey in the Southern Ocean were indicative of a dramatic increase in ocean productivity. In contrast, the demographic fluctuations observed in baleen whales and their prey in the North Atlantic Ocean were subtle, varying across taxa and time. Perhaps most important was the observation that the ocean-wide expansions and decreases in abundance that were initiated by the post-LGM global warming, continued for millennia after global temperatures stabilized, reflecting persistent, long-lasting impacts of global warming on marine fauna.

Original language	English
Article number	2657-2677
Journal	Global Change Biology
Volume	28
Issue number	8
Number of pages	21
ISSN	1354-1013
DOIs	https://doi.org/10.1111/gcb.16085
Publication status	Published - 2022

UN SDGs

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

SDG 13 Climate Action
SDG 14 Life Below Water
SDG 15 Life on Land

Keywords

Cetaceans
Climate change
Demographic inference genetics
Glaciation
Marine ecosystem
North Atlantic Ocean
Polar ecosystems
Southern Ocean

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Cabrera, A. A., Schall, E., Bérubé, M., Anderwald, P., Bachmann, L., Berrow, S., Best, P. B., Clapham, P. J., Cunha, H. A., Dalla Rosa, L., Dias, C., Findlay, K. P., Haug, T., Heide-Jørgensen, M. P., Hoelzel, A. R., Kovacs, K. M., Landry, S., Larsen, F., Lopes, X. M., ... Palsbøll, P. J. (2022). Strong and lasting impacts of past global warming on baleen whales and their prey. Global Change Biology, 28(8), Article 2657-2677. https://doi.org/10.1111/gcb.16085

@article{1062fdd045f345289f633a7e994a1fcd,

title = "Strong and lasting impacts of past global warming on baleen whales and their prey",

abstract = "Global warming is affecting the population dynamics and trophic interactions across a wide range of ecosystems and habitats. Translating these real-time effects into their long-term consequences remains a challenge. The rapid and extreme warming period that occurred after the Last Glacial Maximum (LGM) during the Pleistocene-Holocene transition (7-12 thousand years ago) provides an opportunity to gain insights into the long-term responses of natural populations to periods with global warming. The effects of this post-LGM warming period have been assessed in many terrestrial taxa, whereas insights into the impacts of rapid global warming on marine taxa remain limited, especially for megafauna. In order to understand how large-scale climate fluctuations during the post-LGM affected baleen whales and their prey, we conducted an extensive, large-scale analysis of the long-term effects of the post-LGM warming on abundance and inter-ocean connectivity in eight baleen whale and seven prey (fish and invertebrates) species across the Southern and the North Atlantic Ocean; two ocean basins that differ in key oceanographic features. The analysis was based upon 7032 mitochondrial DNA sequences as well as genome-wide DNA sequence variation in 100 individuals. The estimated temporal changes in genetic diversity during the last 30,000 years indicated that most baleen whale populations underwent post-LGM expansions in both ocean basins. The increase in baleen whale abundance during the Holocene was associated with simultaneous changes in their prey and climate. Highly correlated, synchronized and exponential increases in abundance in both baleen whales and their prey in the Southern Ocean were indicative of a dramatic increase in ocean productivity. In contrast, the demographic fluctuations observed in baleen whales and their prey in the North Atlantic Ocean were subtle, varying across taxa and time. Perhaps most important was the observation that the ocean-wide expansions and decreases in abundance that were initiated by the post-LGM global warming, continued for millennia after global temperatures stabilized, reflecting persistent, long-lasting impacts of global warming on marine fauna.",

keywords = "Cetaceans, Climate change, Demographic inference genetics, Glaciation, Marine ecosystem, North Atlantic Ocean, Polar ecosystems, Southern Ocean",

author = "Cabrera, \{Andrea A.\} and Elena Schall and Martine B{\'e}rub{\'e} and Pia Anderwald and Lutz Bachmann and Simon Berrow and Best, \{Peter B.\} and Clapham, \{Phillip J.\} and Cunha, \{Hayd{\'e}e A.\} and \{Dalla Rosa\}, Luciano and Carolina Dias and Findlay, \{Kenneth P.\} and Tore Haug and Heide-J{\o}rgensen, \{Mads Peter\} and Hoelzel, \{A. Rus\} and Kovacs, \{Kit M.\} and Scott Landry and Finn Larsen and Lopes, \{X{\^e}nia M.\} and Christian Lydersen and Mattila, \{David K.\} and Tom Oosting and Pace, \{Richard M.\} and Chiara Papetti and Angeliki Paspati and Pastene, \{Luis A.\} and Rui Prieto and Christian Ramp and Jooke Robbins and Richard Sears and Secchi, \{Eduardo R.\} and Silva, \{M{\'o}nica A.\} and Malene Simon and G{\'i}sli V{\'i}kingsson and {\O}ystein Wiig and Nils {\O}ien and Palsb{\o}ll, \{Per J.\}",

year = "2022",

doi = "10.1111/gcb.16085",

language = "English",

volume = "28",

journal = "Global Change Biology",

issn = "1354-1013",

publisher = "Wiley-Blackwell",

number = "8",

}

Cabrera, AA, Schall, E, Bérubé, M, Anderwald, P, Bachmann, L, Berrow, S, Best, PB, Clapham, PJ, Cunha, HA, Dalla Rosa, L, Dias, C, Findlay, KP, Haug, T, Heide-Jørgensen, MP, Hoelzel, AR, Kovacs, KM, Landry, S, Larsen, F, Lopes, XM, Lydersen, C, Mattila, DK, Oosting, T, Pace, RM, Papetti, C, Paspati, A, Pastene, LA, Prieto, R, Ramp, C, Robbins, J, Sears, R, Secchi, ER, Silva, MA, Simon, M, Víkingsson, G, Wiig, Ø, Øien, N & Palsbøll, PJ 2022, 'Strong and lasting impacts of past global warming on baleen whales and their prey', Global Change Biology, vol. 28, no. 8, 2657-2677. https://doi.org/10.1111/gcb.16085

TY - JOUR

T1 - Strong and lasting impacts of past global warming on baleen whales and their prey

AU - Cabrera, Andrea A.

AU - Schall, Elena

AU - Bérubé, Martine

AU - Anderwald, Pia

AU - Bachmann, Lutz

AU - Berrow, Simon

AU - Best, Peter B.

AU - Clapham, Phillip J.

AU - Cunha, Haydée A.

AU - Dalla Rosa, Luciano

AU - Dias, Carolina

AU - Findlay, Kenneth P.

AU - Haug, Tore

AU - Heide-Jørgensen, Mads Peter

AU - Hoelzel, A. Rus

AU - Kovacs, Kit M.

AU - Landry, Scott

AU - Larsen, Finn

AU - Lopes, Xênia M.

AU - Lydersen, Christian

AU - Mattila, David K.

AU - Oosting, Tom

AU - Pace, Richard M.

AU - Papetti, Chiara

AU - Paspati, Angeliki

AU - Pastene, Luis A.

AU - Prieto, Rui

AU - Ramp, Christian

AU - Robbins, Jooke

AU - Sears, Richard

AU - Secchi, Eduardo R.

AU - Silva, Mónica A.

AU - Simon, Malene

AU - Víkingsson, Gísli

AU - Wiig, Øystein

AU - Øien, Nils

AU - Palsbøll, Per J.

PY - 2022

Y1 - 2022

N2 - Global warming is affecting the population dynamics and trophic interactions across a wide range of ecosystems and habitats. Translating these real-time effects into their long-term consequences remains a challenge. The rapid and extreme warming period that occurred after the Last Glacial Maximum (LGM) during the Pleistocene-Holocene transition (7-12 thousand years ago) provides an opportunity to gain insights into the long-term responses of natural populations to periods with global warming. The effects of this post-LGM warming period have been assessed in many terrestrial taxa, whereas insights into the impacts of rapid global warming on marine taxa remain limited, especially for megafauna. In order to understand how large-scale climate fluctuations during the post-LGM affected baleen whales and their prey, we conducted an extensive, large-scale analysis of the long-term effects of the post-LGM warming on abundance and inter-ocean connectivity in eight baleen whale and seven prey (fish and invertebrates) species across the Southern and the North Atlantic Ocean; two ocean basins that differ in key oceanographic features. The analysis was based upon 7032 mitochondrial DNA sequences as well as genome-wide DNA sequence variation in 100 individuals. The estimated temporal changes in genetic diversity during the last 30,000 years indicated that most baleen whale populations underwent post-LGM expansions in both ocean basins. The increase in baleen whale abundance during the Holocene was associated with simultaneous changes in their prey and climate. Highly correlated, synchronized and exponential increases in abundance in both baleen whales and their prey in the Southern Ocean were indicative of a dramatic increase in ocean productivity. In contrast, the demographic fluctuations observed in baleen whales and their prey in the North Atlantic Ocean were subtle, varying across taxa and time. Perhaps most important was the observation that the ocean-wide expansions and decreases in abundance that were initiated by the post-LGM global warming, continued for millennia after global temperatures stabilized, reflecting persistent, long-lasting impacts of global warming on marine fauna.

AB - Global warming is affecting the population dynamics and trophic interactions across a wide range of ecosystems and habitats. Translating these real-time effects into their long-term consequences remains a challenge. The rapid and extreme warming period that occurred after the Last Glacial Maximum (LGM) during the Pleistocene-Holocene transition (7-12 thousand years ago) provides an opportunity to gain insights into the long-term responses of natural populations to periods with global warming. The effects of this post-LGM warming period have been assessed in many terrestrial taxa, whereas insights into the impacts of rapid global warming on marine taxa remain limited, especially for megafauna. In order to understand how large-scale climate fluctuations during the post-LGM affected baleen whales and their prey, we conducted an extensive, large-scale analysis of the long-term effects of the post-LGM warming on abundance and inter-ocean connectivity in eight baleen whale and seven prey (fish and invertebrates) species across the Southern and the North Atlantic Ocean; two ocean basins that differ in key oceanographic features. The analysis was based upon 7032 mitochondrial DNA sequences as well as genome-wide DNA sequence variation in 100 individuals. The estimated temporal changes in genetic diversity during the last 30,000 years indicated that most baleen whale populations underwent post-LGM expansions in both ocean basins. The increase in baleen whale abundance during the Holocene was associated with simultaneous changes in their prey and climate. Highly correlated, synchronized and exponential increases in abundance in both baleen whales and their prey in the Southern Ocean were indicative of a dramatic increase in ocean productivity. In contrast, the demographic fluctuations observed in baleen whales and their prey in the North Atlantic Ocean were subtle, varying across taxa and time. Perhaps most important was the observation that the ocean-wide expansions and decreases in abundance that were initiated by the post-LGM global warming, continued for millennia after global temperatures stabilized, reflecting persistent, long-lasting impacts of global warming on marine fauna.

KW - Cetaceans

KW - Climate change

KW - Demographic inference genetics

KW - Glaciation

KW - Marine ecosystem

KW - North Atlantic Ocean

KW - Polar ecosystems

KW - Southern Ocean

U2 - 10.1111/gcb.16085

DO - 10.1111/gcb.16085

M3 - Journal article

C2 - 35106859

SN - 1354-1013

VL - 28

JO - Global Change Biology

JF - Global Change Biology

IS - 8

M1 - 2657-2677

ER -

Strong and lasting impacts of past global warming on baleen whales and their prey

Abstract

UN SDGs

Keywords

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