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Controls on surface water carbonate chemistry along North American ocean margins

Author

Listed:
  • Wei-Jun Cai

    (University of Delaware)

  • Yuan-Yuan Xu

    (University of Delaware)

  • Richard A. Feely

    (NOAA Pacific Marine Environmental Laboratory)

  • Rik Wanninkhof

    (NOAA Atlantic Oceanographic and Meteorological Laboratory)

  • Bror Jönsson

    (Plymouth Marine Laboratory)

  • Simone R. Alin

    (NOAA Pacific Marine Environmental Laboratory)

  • Leticia Barbero

    (NOAA Atlantic Oceanographic and Meteorological Laboratory
    University of Miami)

  • Jessica N. Cross

    (NOAA Pacific Marine Environmental Laboratory)

  • Kumiko Azetsu-Scott

    (Bedford Institute of Oceanography)

  • Andrea J. Fassbender

    (Monterey Bay Aquarium Research Institute)

  • Brendan R. Carter

    (NOAA Pacific Marine Environmental Laboratory
    University of Washington)

  • Li-Qing Jiang

    (University of Maryland)

  • Pierre Pepin

    (Northwest Atlantic Fisheries Centre)

  • Baoshan Chen

    (University of Delaware)

  • Najid Hussain

    (University of Delaware)

  • Janet J. Reimer

    (University of Delaware)

  • Liang Xue

    (Ministry of Natural Resources)

  • Joseph E. Salisbury

    (University of New Hampshire)

  • José Martín Hernández-Ayón

    (Universidad Autónoma de Baja California)

  • Chris Langdon

    (University of Miami)

  • Qian Li

    (University of Delaware)

  • Adrienne J. Sutton

    (NOAA Pacific Marine Environmental Laboratory)

  • Chen-Tung A. Chen

    (National Sun Yat-sen University)

  • Dwight K. Gledhill

    (NOAA Ocean Acidification Program)

Abstract

Syntheses of carbonate chemistry spatial patterns are important for predicting ocean acidification impacts, but are lacking in coastal oceans. Here, we show that along the North American Atlantic and Gulf coasts the meridional distributions of dissolved inorganic carbon (DIC) and carbonate mineral saturation state (Ω) are controlled by partial equilibrium with the atmosphere resulting in relatively low DIC and high Ω in warm southern waters and the opposite in cold northern waters. However, pH and the partial pressure of CO2 (pCO2) do not exhibit a simple spatial pattern and are controlled by local physical and net biological processes which impede equilibrium with the atmosphere. Along the Pacific coast, upwelling brings subsurface waters with low Ω and pH to the surface where net biological production works to raise their values. Different temperature sensitivities of carbonate properties and different timescales of influencing processes lead to contrasting property distributions within and among margins.

Suggested Citation

  • Wei-Jun Cai & Yuan-Yuan Xu & Richard A. Feely & Rik Wanninkhof & Bror Jönsson & Simone R. Alin & Leticia Barbero & Jessica N. Cross & Kumiko Azetsu-Scott & Andrea J. Fassbender & Brendan R. Carter & L, 2020. "Controls on surface water carbonate chemistry along North American ocean margins," Nature Communications, Nature, vol. 11(1), pages 1-13, December.
    • Handle: RePEc:nat:natcom:v:11:y:2020:i:1:d:10.1038_s41467-020-16530-z
    DOI: 10.1038/s41467-020-16530-z
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    Cited by:

    1. Gloria M. S. Reithmaier & Alex Cabral & Anirban Akhand & Matthew J. Bogard & Alberto V. Borges & Steven Bouillon & David J. Burdige & Mitchel Call & Nengwang Chen & Xiaogang Chen & Luiz C. Cotovicz & , 2023. "Carbonate chemistry and carbon sequestration driven by inorganic carbon outwelling from mangroves and saltmarshes," Nature Communications, Nature, vol. 14(1), pages 1-8, December.

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