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Antarctic glaciers export carbon-stabilised iron(II)-rich particles to the surface Southern Ocean

Author

Listed:
  • Rhiannon L. Jones

    (British Antarctic Survey
    University of Southampton)

  • Jon R. Hawkings

    (University of Pennsylvania
    The Arctic University of Norway)

  • Michael P. Meredith

    (British Antarctic Survey)

  • Maeve C. Lohan

    (University of Southampton)

  • Oliver W. Moore

    (University of York)

  • Robert M. Sherrell

    (Rutgers University)

  • Jessica N. Fitzsimmons

    (Rutgers University
    Texas A&M University)

  • Majid Kazemian

    (Harwell Science & Innovation Campus)

  • Tohru Araki

    (Institute for Molecular Science)

  • Burkhard Kaulich

    (Harwell Science & Innovation Campus)

  • Amber L. Annett

    (British Antarctic Survey)

Abstract

Iron is an essential micronutrient for phytoplankton and plays an integral role in the marine carbon cycle. The supply and bioavailability of iron are therefore important modulators of climate over glacial-interglacial cycles. Inputs of iron from the Antarctic continental shelf alleviate iron limitation in the Southern Ocean, driving hotspots of productivity. Glacial meltwater fluxes can deliver high volumes of particulate iron. Here, we show that glacier meltwater provides particles rich in iron(II) to the Antarctic shelf surface ocean. Particulate iron(II) is understood to be more bioavailable to phytoplankton, but less stable in oxic seawater, than iron(III). Using x-ray microscopy, we demonstrate co-occurrence of iron and organic carbon-rich phases, suggesting that organic carbon retards the oxidation of potentially-bioavailable iron(II) in oxic seawater. Accelerating meltwater fluxes may provide an increasingly important source of bioavailable iron(II)-rich particles to the Antarctic surface ocean, with implications for the Southern Ocean carbon pump and ecosystem productivity.

Suggested Citation

  • Rhiannon L. Jones & Jon R. Hawkings & Michael P. Meredith & Maeve C. Lohan & Oliver W. Moore & Robert M. Sherrell & Jessica N. Fitzsimmons & Majid Kazemian & Tohru Araki & Burkhard Kaulich & Amber L. , 2025. "Antarctic glaciers export carbon-stabilised iron(II)-rich particles to the surface Southern Ocean," Nature Communications, Nature, vol. 16(1), pages 1-10, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-59981-y
    DOI: 10.1038/s41467-025-59981-y
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    References listed on IDEAS

    as
    1. Jon R. Hawkings & Jemma L. Wadham & Martyn Tranter & Rob Raiswell & Liane G. Benning & Peter J. Statham & Andrew Tedstone & Peter Nienow & Katherine Lee & Jon Telling, 2014. "Ice sheets as a significant source of highly reactive nanoparticulate iron to the oceans," Nature Communications, Nature, vol. 5(1), pages 1-8, September.
    2. Jordon D. Hemingway & Daniel H. Rothman & Katherine E. Grant & Sarah Z. Rosengard & Timothy I. Eglinton & Louis A. Derry & Valier V. Galy, 2019. "Mineral protection regulates long-term global preservation of natural organic carbon," Nature, Nature, vol. 570(7760), pages 228-231, June.
    3. Andy Hodson & Aga Nowak & Marie Sabacka & Anne Jungblut & Francisco Navarro & David Pearce & María Luisa Ávila-Jiménez & Peter Convey & Gonçalo Vieira, 2017. "Climatically sensitive transfer of iron to maritime Antarctic ecosystems by surface runoff," Nature Communications, Nature, vol. 8(1), pages 1-7, April.
    4. Oliver W. Moore & Lisa Curti & Clare Woulds & James A. Bradley & Peyman Babakhani & Benjamin J. W. Mills & William B. Homoky & Ke-Qing Xiao & Andrew W. Bray & Ben J. Fisher & Majid Kazemian & Burkhard, 2023. "Long-term organic carbon preservation enhanced by iron and manganese," Nature, Nature, vol. 621(7978), pages 312-317, September.
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