4.7 Article

Uranium isotopes distinguish two geochemically distinct stages during the later Cambrian SPICE event

Journal

EARTH AND PLANETARY SCIENCE LETTERS
Volume 401, Issue -, Pages 313-326

Publisher

ELSEVIER SCIENCE BV
DOI: 10.1016/j.epsl.2014.05.043

Keywords

carbonates; uranium isotopes; paleoredox; oceanic anoxic events; anoxic marine zones; SPICE event

Funding

  1. US National Science Foundation [EAR-0418270, EAR-0719911]
  2. Villum Foundation Young Investigator Programme
  3. Danish National Research Foundation [DNRF-53, VKR023127, DNRF97]
  4. European Research Council under ERC [616027-STARDUST2ASTEROIDS]
  5. Natural Environment Research Council [NE/I005978/2] Funding Source: researchfish
  6. Villum Fonden [00007276] Funding Source: researchfish
  7. NERC [NE/I005978/2] Funding Source: UKRI

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Anoxic marine zones were common in early Paleozoic oceans (542-400 Ma), and present a potential link to atmospheric pO(2) via feedbacks linking global marine phosphorous recycling, primary production and organic carbon burial. Uranium (U) isotopes in carbonate rocks track the extent of ocean anoxia, whereas carbon (C) and sulfur (S) isotopes track the burial of organic carbon and pyrite sulfur (primary long-term sources of atmospheric oxygen). In combination, these proxies therefore reveal the comparative dynamics of ocean anoxia and oxygen liberation to the atmosphere over million-year time scales. Here we report high-precision uranium isotopic data in marine carbonates deposited during the Late Cambrian 'SPICE' event, at ca. 499 Ma, documenting a well-defined -0.18 parts per thousand negative delta U-238 excursion that occurs at the onset of the SPICE event's positive delta C-13 and delta S-34 excursions, but peaks (and tails off) before them. Dynamic modelling shows that the different response of the U reservoir cannot be attributed solely to differences in residence times or reservoir sizes - suggesting that two chemically distinct ocean states occurred within the SPICE event. The first ocean stage involved a global expansion of euxinic waters, triggering the spike in U burial, and peaking in conjunction with a well-known trilobite extinction event. During the second stage widespread euxinia waned, causing U removal to tail off, but enhanced organic carbon and pyrite burial continued, coinciding with evidence for severe sulfate depletion in the oceans (Gill et al., 2011). We discuss scenarios for how an interval of elevated pyrite and organic carbon burial could have been sustained without widespread euxinia in the water column (both non-sulfidic anoxia and/or a more oxygenated ocean state are possibilities). Either way, the SPICE event encompasses two different stages of elevated organic carbon and pyrite burial maintained by high nutrient fluxes to the ocean, and potentially sustained by internal marine geochemical feedbacks. (C) 2014 Elsevier B.V. All rights reserved.

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