Climate velocity reveals increasing exposure of deep-ocean biodiversity to future warming

Isaac Brito-morales; David S. Schoeman; Jorge García Molinos; Michael T. Burrows; Carissa J. Klein; Nur Arafeh-dalmau; Kristin Kaschner; Cristina Garilao; Kathleen Kesner-reyes; Anthony J. Richardson

doi:10.1038/s41558-020-0773-5

Climate velocity reveals increasing exposure of deep-ocean biodiversity to future warming

Isaac Brito-morales
, David S. Schoeman
, Jorge García Molinos
, Michael T. Burrows
, Carissa J. Klein
, Nur Arafeh-dalmau
, Kristin Kaschner
, Cristina Garilao
, Kathleen Kesner-reyes
, Anthony J. Richardson

Resultado de pesquisa: Article › revisão de pares

160 Citações (Scopus)

272 Transferências (Pure)

Resumo

Slower warming in the deep ocean encourages a perception that its biodiversity is less exposed to climate change than that of
surface waters. We challenge this notion by analysing climate velocity, which provides expectations for species’ range shifts.
We find that contemporary (1955–2005) climate velocities are faster in the deep ocean than at the surface. Moreover, projected climate velocities in the future (2050–2100) are faster for all depth layers, except at the surface, under the most aggressive GHG mitigation pathway considered (representative concentration pathway, RCP 2.6). This suggests that while mitigation could limit climate change threats for surface biodiversity, deep-ocean biodiversity faces an unavoidable escalation in climate velocities, most prominently in the mesopelagic (200–1,000 m). To optimize opportunities for climate adaptation among deep-ocean communities, future open-ocean protected areas must be designed to retain species moving at different speeds at different depths under climate change while managing non-climate threats, such as fishing and mining.

Idioma original	English
Páginas (de-até)	576-581
Número de páginas	17
Revista	Nature Climate Change
Volume	10
Número de emissão	NA
DOIs	https://doi.org/10.1038/s41558-020-0773-5
Estado da publicação	Published - 25 mai. 2020

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10.1038/s41558-020-0773-5Licença: CC BY-NC-ND

Brito-Morales etal-2020-main-text
© 2020 Springer Nature Limited
Accepted author manuscript, 12,6 MBLicença: CC BY-NC-ND

http://www.nature.com/articles/s41558-020-0773-5Licença: CC BY-NC-ND

Michael Burrows
- michael.burrowssams.acuk
- SAMS UHI - Marine Ecologist
- Energy Innovation Team
Pessoa: Academic - Research and Teaching or Research only

Citar isto

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abstract = "Slower warming in the deep ocean encourages a perception that its biodiversity is less exposed to climate change than that of surface waters. We challenge this notion by analysing climate velocity, which provides expectations for species{\textquoteright} range shifts. We find that contemporary (1955–2005) climate velocities are faster in the deep ocean than at the surface. Moreover, projected climate velocities in the future (2050–2100) are faster for all depth layers, except at the surface, under the most aggressive GHG mitigation pathway considered (representative concentration pathway, RCP 2.6). This suggests that while mitigation could limit climate change threats for surface biodiversity, deep-ocean biodiversity faces an unavoidable escalation in climate velocities, most prominently in the mesopelagic (200–1,000 m). To optimize opportunities for climate adaptation among deep-ocean communities, future open-ocean protected areas must be designed to retain species moving at different speeds at different depths under climate change while managing non-climate threats, such as fishing and mining.",

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AU - Brito-morales, Isaac

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AU - Arafeh-dalmau, Nur

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AU - Richardson, Anthony J.

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AB - Slower warming in the deep ocean encourages a perception that its biodiversity is less exposed to climate change than that of surface waters. We challenge this notion by analysing climate velocity, which provides expectations for species’ range shifts. We find that contemporary (1955–2005) climate velocities are faster in the deep ocean than at the surface. Moreover, projected climate velocities in the future (2050–2100) are faster for all depth layers, except at the surface, under the most aggressive GHG mitigation pathway considered (representative concentration pathway, RCP 2.6). This suggests that while mitigation could limit climate change threats for surface biodiversity, deep-ocean biodiversity faces an unavoidable escalation in climate velocities, most prominently in the mesopelagic (200–1,000 m). To optimize opportunities for climate adaptation among deep-ocean communities, future open-ocean protected areas must be designed to retain species moving at different speeds at different depths under climate change while managing non-climate threats, such as fishing and mining.

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Climate velocity reveals increasing exposure of deep-ocean biodiversity to future warming

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Michael Burrows

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