A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation

Veytia, Devi; Mariani, Gaël; Martí Barclay, Vicky; Airoldi, Laura; Claudet, Joachim; Cooley, Sarah; Magnan, Alexandre; Neill, Simon; Sumaila, U. Rashid; Thébaud, Olivier; Voolstra, Christian R.; Williamson, Phillip; Bonnin, Marie; Langridge, Joseph; Comte, Adrien; Viard, Frédérique; Shin, Yunne-Jai; Bopp, Laurent; Gattuso, Jean-Pierre

Publikation:
A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation

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Veytia_2-1xqt0tfa82zfn7.pdfGröße: 3.69 MBDownloads: 6

Datum

2025

Autor:innen

Veytia, Devi

Mariani, Gaël

Martí Barclay, Vicky

Airoldi, Laura

Claudet, Joachim

Cooley, Sarah

Magnan, Alexandre

Neill, Simon

Sumaila, U. Rashid

Thébaud, Olivier

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Angaben zur Forschungsförderung

European Union (EU): 80898

Open Access-Veröffentlichung

Open Access Gold

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Biologie: Publikationen

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npj Ocean Sustainability. Springer. 2025, 4(1), 60. eISSN 2731-426X. Verfügbar unter: doi: 10.1038/s44183-025-00159-w

Zusammenfassung

The ocean has a vital role to play in addressing the global challenge of climate change, which requires both mitigation and adaptation actions. The exponential increase in research relating to ocean-related options (OROs) requires a rapid and reproducible method to assess the state of knowledge. We train a state-of-the-art large language model to characterise the landscape of ORO research by classifying 44,193 (±11,615) articles across various descriptors. Research proves to be unevenly distributed, concentrating on OROs with mitigation objectives (80%), while revealing research gaps including under-researched ecosystems and an observed paucity of studies simultaneously assessing different ORO types. We also uncover social inequalities driven by mismatches between the global distribution of research effort, climate change responsibility, and risk. These findings are important to maximise the efficacy of OROs, position them within broader climate action portfolios, and inform future research priorities.

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570 Biowissenschaften, Biologie

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ISO 690

VEYTIA, Devi, Gaël MARIANI, Vicky MARTÍ BARCLAY, Laura AIROLDI, Joachim CLAUDET, Sarah COOLEY, Alexandre MAGNAN, Simon NEILL, U. Rashid SUMAILA, Olivier THÉBAUD, Christian R. VOOLSTRA, Phillip WILLIAMSON, Marie BONNIN, Joseph LANGRIDGE, Adrien COMTE, Frédérique VIARD, Yunne-Jai SHIN, Laurent BOPP, Jean-Pierre GATTUSO, 2025. A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation. In: npj Ocean Sustainability. Springer. 2025, 4(1), 60. eISSN 2731-426X. Verfügbar unter: doi: 10.1038/s44183-025-00159-w

BibTex

@article{Veytia2025-11-19machi-76168,
  title={A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation},
  year={2025},
  doi={10.1038/s44183-025-00159-w},
  number={1},
  volume={4},
  journal={npj Ocean Sustainability},
  author={Veytia, Devi and Mariani, Gaël and Martí Barclay, Vicky and Airoldi, Laura and Claudet, Joachim and Cooley, Sarah and Magnan, Alexandre and Neill, Simon and Sumaila, U. Rashid and Thébaud, Olivier and Voolstra, Christian R. and Williamson, Phillip and Bonnin, Marie and Langridge, Joseph and Comte, Adrien and Viard, Frédérique and Shin, Yunne-Jai and Bopp, Laurent and Gattuso, Jean-Pierre},
  note={Article Number: 60}
}

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Publikation: A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation

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Publikation:
A machine learning-based evidence map of ocean-related options for climate change mitigation and adaptation