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Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms

Author

Listed:
  • James C. Orr

    (UMR CEA-CNRS, CEA Saclay)

  • Victoria J. Fabry

    (California State University San Marcos)

  • Olivier Aumont

    (Centre IRD de Bretagne)

  • Laurent Bopp

    (UMR CEA-CNRS, CEA Saclay)

  • Scott C. Doney

    (Woods Hole Oceanographic Institution)

  • Richard A. Feely

    (National Oceanic and Atmospheric Administration (NOAA)/Pacific Marine Environmental Laboratory)

  • Anand Gnanadesikan

    (NOAA/Geophysical Fluid Dynamics Laboratory)

  • Nicolas Gruber

    (UCLA)

  • Akio Ishida

    (Frontier Research Center for Global Change)

  • Fortunat Joos

    (University of Bern)

  • Robert M. Key

    (Princeton University)

  • Keith Lindsay

    (National Center for Atmospheric Research)

  • Ernst Maier-Reimer

    (Max Planck Institut für Meteorologie)

  • Richard Matear

    (CSIRO Marine Research and Antarctic Climate and Ecosystems CRC)

  • Patrick Monfray

    (UMR CEA-CNRS, CEA Saclay
    UMR 5566 CNES-CNRS-IRD-UPS)

  • Anne Mouchet

    (University of Liege)

  • Raymond G. Najjar

    (Pennsylvania State University)

  • Gian-Kasper Plattner

    (UCLA
    University of Bern)

  • Keith B. Rodgers

    (UMR CEA-CNRS, CEA Saclay
    LOCEAN, Université Pierre et Marie Curie
    Princeton University)

  • Christopher L. Sabine

    (National Oceanic and Atmospheric Administration (NOAA)/Pacific Marine Environmental Laboratory)

  • Jorge L. Sarmiento

    (Princeton University)

  • Reiner Schlitzer

    (Alfred Wegener Institute for Polar and Marine Research)

  • Richard D. Slater

    (Princeton University)

  • Ian J. Totterdell

    (National Oceanography Centre Southampton
    The Met Office, Hadley Centre)

  • Marie-France Weirig

    (Alfred Wegener Institute for Polar and Marine Research)

  • Yasuhiro Yamanaka

    (Frontier Research Center for Global Change)

  • Andrew Yool

    (National Oceanography Centre Southampton)

Abstract

Today's surface ocean is saturated with respect to calcium carbonate, but increasing atmospheric carbon dioxide concentrations are reducing ocean pH and carbonate ion concentrations, and thus the level of calcium carbonate saturation. Experimental evidence suggests that if these trends continue, key marine organisms—such as corals and some plankton—will have difficulty maintaining their external calcium carbonate skeletons. Here we use 13 models of the ocean–carbon cycle to assess calcium carbonate saturation under the IS92a ‘business-as-usual’ scenario for future emissions of anthropogenic carbon dioxide. In our projections, Southern Ocean surface waters will begin to become undersaturated with respect to aragonite, a metastable form of calcium carbonate, by the year 2050. By 2100, this undersaturation could extend throughout the entire Southern Ocean and into the subarctic Pacific Ocean. When live pteropods were exposed to our predicted level of undersaturation during a two-day shipboard experiment, their aragonite shells showed notable dissolution. Our findings indicate that conditions detrimental to high-latitude ecosystems could develop within decades, not centuries as suggested previously.

Suggested Citation

  • James C. Orr & Victoria J. Fabry & Olivier Aumont & Laurent Bopp & Scott C. Doney & Richard A. Feely & Anand Gnanadesikan & Nicolas Gruber & Akio Ishida & Fortunat Joos & Robert M. Key & Keith Lindsay, 2005. "Anthropogenic ocean acidification over the twenty-first century and its impact on calcifying organisms," Nature, Nature, vol. 437(7059), pages 681-686, September.
    • Handle: RePEc:nat:nature:v:437:y:2005:i:7059:d:10.1038_nature04095
    DOI: 10.1038/nature04095
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    Cited by:

    1. Pringle, Adam M. & Handler, R.M. & Pearce, J.M., 2017. "Aquavoltaics: Synergies for dual use of water area for solar photovoltaic electricity generation and aquaculture," Renewable and Sustainable Energy Reviews, Elsevier, vol. 80(C), pages 572-584.
    2. Ricardo Gómez-Reyes & Clara E. Galindo-Sánchez & Fabiola Lafarga-De la Cruz & José M. Hernández-Ayón & Enrique Valenzuela-Wood & Laura López-Galindo, 2023. "Individual Pattern Response to CO 2 -Induced Acidification Stress in Haliotis rufescens Suggests Stage-Specific Acclimatization during Its Early Life History," Sustainability, MDPI, vol. 15(18), pages 1-18, September.
    3. Nathalie Hilmi & Denis Allemand & Sam Dupont & Alain Safa & Gunnar Haraldsson & Paulo Nunes & Chris Moore & Caroline Hattam & Stéphanie Reynaud & Jason Hall-Spencer & Maoz Fine & Carol Turley & Ross J, 2013. "Towards improved socio-economic assessments of ocean acidification’s impacts," Post-Print hal-03208182, HAL.
    4. Richards, Russell & Chaloupka, Milani & Sanò, Marcello & Tomlinson, Rodger, 2011. "Modelling the effects of ‘coastal’ acidification on copper speciation," Ecological Modelling, Elsevier, vol. 222(19), pages 3559-3567.
    5. Tamayo, Natasha Charmaine A. & Anticamara, Jonathan A. & Acosta-Michlik, Lilibeth, 2018. "National Estimates of Values of Philippine Reefs' Ecosystem Services," Ecological Economics, Elsevier, vol. 146(C), pages 633-644.
    6. Jie Wang & Peiling Yao & Jiaming Liu & Xun Wang & Jingjing Mao & Jiayuan Xu & Jiarui Wang, 2023. "Reconstruction of Surface Seawater pH in the North Pacific," Sustainability, MDPI, vol. 15(7), pages 1-19, March.
    7. Xiao Zhang & Shengchao Ye & Manhong Shen, 2023. "Driving Factors and Spatiotemporal Characteristics of CO 2 Emissions from Marine Fisheries in China: A Commonly Neglected Carbon-Intensive Sector," IJERPH, MDPI, vol. 20(1), pages 1-17, January.
    8. Mongin, Mathieu & Baird, Mark, 2014. "The interacting effects of photosynthesis, calcification and water circulation on carbon chemistry variability on a coral reef flat: A modelling study," Ecological Modelling, Elsevier, vol. 284(C), pages 19-34.
    9. Hofmann Elizondo, Urs & Vogt, Meike, 2022. "Individual-based modeling of shelled pteropods," Ecological Modelling, Elsevier, vol. 468(C).
    10. Werner, Francisco E. & Ito, Shin-Ichi & Megrey, Bernard A. & Kishi, Michio J., 2007. "Synthesis of the NEMURO model studies and future directions of marine ecosystem modeling," Ecological Modelling, Elsevier, vol. 202(1), pages 211-223.
    11. Ullah, Kifayat & Kumar Sharma, Vinod & Dhingra, Sunil & Braccio, Giacobbe & Ahmad, Mushtaq & Sofia, Sofia, 2015. "Assessing the lignocellulosic biomass resources potential in developing countries: A critical review," Renewable and Sustainable Energy Reviews, Elsevier, vol. 51(C), pages 682-698.
    12. Pikesley, Stephen K. & Godley, Brendan J. & Latham, Holly & Richardson, Peter B. & Robson, Laura M. & Solandt, Jean-Luc & Trundle, Colin & Wood, Chris & Witt, Matthew J., 2016. "Pink sea fans (Eunicella verrucosa) as indicators of the spatial efficacy of Marine Protected Areas in southwest UK coastal waters," Marine Policy, Elsevier, vol. 64(C), pages 38-45.

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