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Impact of green clay authigenesis on element sequestration in marine settings

Author

Listed:
  • Andre Baldermann

    (Graz University of Technology, NAWI Graz Geocenter)

  • Santanu Banerjee

    (Indian Institute of Technology Bombay, Powai)

  • György Czuppon

    (Eötvös Loránd Research Network)

  • Martin Dietzel

    (Graz University of Technology, NAWI Graz Geocenter)

  • Juraj Farkaš

    (University of Adelaide, North Terrace)

  • Stefan Lӧhr

    (Macquarie University)

  • Ulrike Moser

    (Graz University of Technology, NAWI Graz Geocenter)

  • Esther Scheiblhofer

    (Graz University of Technology, NAWI Graz Geocenter)

  • Nicky M. Wright

    (University of Sydney)

  • Thomas Zack

    (University of Adelaide, North Terrace
    University of Gothenburg)

Abstract

Retrograde clay mineral reactions (reverse weathering), including glauconite formation, are first-order controls on element sequestration in marine sediments. Here, we report substantial element sequestration by glauconite formation in shallow marine settings from the Triassic to the Holocene, averaging 3 ± 2 mmol·cm−²·kyr−1 for K, Mg and Al, 16 ± 9 mmol·cm−²·kyr−1 for Si and 6 ± 3 mmol·cm−²·kyr−1 for Fe, which is ~2 orders of magnitude higher than estimates for deep-sea settings. Upscaling of glauconite abundances in shallow-water (0–200 m) environments predicts a present-day global uptake of ~≤ 0.1 Tmol·yr−1 of K, Mg and Al, and ~0.1–0.4 Tmol·yr−1 of Fe and Si, which is ~half of the estimated Mesozoic elemental flux. Clay mineral authigenesis had a large impact on the global marine element cycles throughout Earth’s history, in particular during ‘greenhouse’ periods with sea level highstand, and is key for better understanding past and present geochemical cycling in marine sediments.

Suggested Citation

  • Andre Baldermann & Santanu Banerjee & György Czuppon & Martin Dietzel & Juraj Farkaš & Stefan Lӧhr & Ulrike Moser & Esther Scheiblhofer & Nicky M. Wright & Thomas Zack, 2022. "Impact of green clay authigenesis on element sequestration in marine settings," Nature Communications, Nature, vol. 13(1), pages 1-11, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-29223-6
    DOI: 10.1038/s41467-022-29223-6
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    References listed on IDEAS

    as
    1. Terry T. Isson & Noah J. Planavsky, 2018. "Reverse weathering as a long-term stabilizer of marine pH and planetary climate," Nature, Nature, vol. 560(7719), pages 471-475, August.
    2. Boriana Kalderon-Asael & Joachim A. R. Katchinoff & Noah J. Planavsky & Ashleigh v. S. Hood & Mathieu Dellinger & Eric J. Bellefroid & David S. Jones & Axel Hofmann & Frantz Ossa Ossa & Francis A. Mac, 2021. "A lithium-isotope perspective on the evolution of carbon and silicon cycles," Nature, Nature, vol. 595(7867), pages 394-398, July.
    3. Ann G. Dunlea & Richard W. Murray & Danielle P. Santiago Ramos & John A. Higgins, 2017. "Cenozoic global cooling and increased seawater Mg/Ca via reduced reverse weathering," Nature Communications, Nature, vol. 8(1), pages 1-7, December.
    4. Netta Shalev & Tomaso R. R. Bontognali & C. Geoffrey Wheat & Derek Vance, 2019. "New isotope constraints on the Mg oceanic budget point to cryptic modern dolomite formation," Nature Communications, Nature, vol. 10(1), pages 1-10, December.
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