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Solid Earth forcing of Mesozoic oceanic anoxic events
Gernon, T.M.; Mills, B.J.W.; Hincks, T.K.; Merdith, A.S.; Alcott, L.J.; Rohling, E.J.; Palmer, M.R. (2024). Solid Earth forcing of Mesozoic oceanic anoxic events. Nature Geoscience 17(9): 926-935. https://dx.doi.org/10.1038/s41561-024-01496-0
In: Nature Geoscience. Nature Publishing Group: London. ISSN 1752-0894; e-ISSN 1752-0908, more
Peer reviewed article  

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Keyword
    Marine/Coastal

Authors  Top 
  • Gernon, T.M.
  • Mills, B.J.W., more
  • Hincks, T.K.
  • Merdith, A.S.
  • Alcott, L.J.
  • Rohling, E.J.
  • Palmer, M.R.

Abstract
    Oceanic anoxic events are geologically abrupt phases of extreme oxygen depletion in the oceans that disrupted marine ecosystems and brought about evolutionary turnover. Typically lasting ~1.5 million years, these events occurred frequently during the Mesozoic era, from about 183 to 85 million years ago, an interval associated with continental breakup and widespread large igneous province volcanism. One hypothesis suggests that anoxic events resulted from enhanced chemical weathering of Earth’s surface in a greenhouse world shaped by high volcanic carbon outgassing. Here we test this hypothesis using a combination of plate reconstructions, tectonic–geochemical analysis and global biogeochemical modelling. We show that enhanced weathering of mafic lithologies during continental breakup and nascent seafloor spreading can plausibly drive a succession of anoxic events. Weathering pulses collectively gave rise to substantial releases of the nutrient phosphorus to the oceans, stimulating biological primary production. This, in turn, enhanced organic carbon burial and caused widespread ocean deoxygenation on a scale sufficient to drive recurrent anoxia. This model complements volcanic outgassing-centred hypotheses for triggering these events by demonstrating well-quantified basaltic sources of phosphorus release during periods of intense weathering related to climate warmth. Our study highlights a close coupling between the solid Earth and biosphere during continental reorganization.

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