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Antarctic ozone hole modifies iodine geochemistry on the Antarctic Plateau

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  • Andrea Spolaor

    (CNR-ISP, Campus Scientifico Via Torino 155, Mestre
    Informatics and Statistics, University Ca’Foscari of Venice, via Torino)

  • François Burgay

    (Informatics and Statistics, University Ca’Foscari of Venice, via Torino
    Laboratory of Environmental Chemistry)

  • Rafael P. Fernandez

    (National Research Council (ICB-CONICET), FCEN-UNCuyo)

  • Clara Turetta

    (CNR-ISP, Campus Scientifico Via Torino 155, Mestre
    Informatics and Statistics, University Ca’Foscari of Venice, via Torino)

  • Carlos A. Cuevas

    (Institute of Physical Chemistry Rocasolano, CSIC)

  • Kitae Kim

    (Korea Polar Research Institute)

  • Douglas E. Kinnison

    (National Center for Atmospheric Research)

  • Jean-François Lamarque

    (National Center for Atmospheric Research)

  • Fabrizio Blasi

    (CNR-ISP, Campus Scientifico Via Torino 155, Mestre
    Informatics and Statistics, University Ca’Foscari of Venice, via Torino)

  • Elena Barbaro

    (CNR-ISP, Campus Scientifico Via Torino 155, Mestre
    Informatics and Statistics, University Ca’Foscari of Venice, via Torino)

  • Juan Pablo Corella

    (Institute of Physical Chemistry Rocasolano, CSIC
    CIEMAT, Environmental Department, Av. Complutense 40, 28040)

  • Paul Vallelonga

    (University of Copenhagen, Tagensvej 16
    University of Western Australia)

  • Massimo Frezzotti

    (University of Roma Tre, Largo S. Leonardo Murialdo, 1)

  • Carlo Barbante

    (CNR-ISP, Campus Scientifico Via Torino 155, Mestre
    Informatics and Statistics, University Ca’Foscari of Venice, via Torino)

  • Alfonso Saiz-Lopez

    (Institute of Physical Chemistry Rocasolano, CSIC)

Abstract

Polar stratospheric ozone has decreased since the 1970s due to anthropogenic emissions of chlorofluorocarbons and halons, resulting in the formation of an ozone hole over Antarctica. The effects of the ozone hole and the associated increase in incoming UV radiation on terrestrial and marine ecosystems are well established; however, the impact on geochemical cycles of ice photoactive elements, such as iodine, remains mostly unexplored. Here, we present the first iodine record from the inner Antarctic Plateau (Dome C) that covers approximately the last 212 years (1800-2012 CE). Our results show that the iodine concentration in ice remained constant during the pre-ozone hole period (1800-1974 CE) but has declined twofold since the onset of the ozone hole era (~1975 CE), closely tracking the total ozone evolution over Antarctica. Based on ice core observations, laboratory measurements and chemistry-climate model simulations, we propose that the iodine decrease since ~1975 is caused by enhanced iodine re-emission from snowpack due to the ozone hole-driven increase in UV radiation reaching the Antarctic Plateau. These findings suggest the potential for ice core iodine records from the inner Antarctic Plateau to be as an archive for past stratospheric ozone trends.

Suggested Citation

  • Andrea Spolaor & François Burgay & Rafael P. Fernandez & Clara Turetta & Carlos A. Cuevas & Kitae Kim & Douglas E. Kinnison & Jean-François Lamarque & Fabrizio Blasi & Elena Barbaro & Juan Pablo Corel, 2021. "Antarctic ozone hole modifies iodine geochemistry on the Antarctic Plateau," Nature Communications, Nature, vol. 12(1), pages 1-9, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26109-x
    DOI: 10.1038/s41467-021-26109-x
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