Cooling-induced intensification of ocean anoxia in the mid-Paleozoic
Yuxuan Wang, Paul B. Wignall, Benjamin J. W. Mills, Alexander J. Dickson, David K. Loydell, Yijun Xiong, Zhen Xu, Jeffrey Peakall, Simon W. Poulton

TL;DR
Cooling in the mid-Silurian caused ocean anoxia by boosting upwelling, leading to widespread low-oxygen conditions and stressing marine life.
Contribution
The study links cooling-induced upwelling to mid-Paleozoic ocean anoxia, explaining dynamics distinct from later events.
Findings
Cooling-induced upwelling increased nutrient supply, spreading anoxia from deep to shallow waters.
Ferruginous conditions expanded in deep waters, while euxinia developed on continental shelves.
Later recovery led to ferruginous anoxia on shelves as weathering rates increased.
Abstract
Mid-Paleozoic oceanic anoxic events (OAEs) have long posed an enigma, with their drivers and dynamics being markedly distinct from the hyperthermal-related events of later eras. Here, we investigate a prominent mid-Silurian OAE, which was associated with the Ireviken Extinction Event and coincided with a cooling climate. We apply Fe speciation, redox-sensitive trace metals, and elemental weathering proxies, alongside sedimentological records and coupled uranium-molybdenum isotope analyses, to deep shelf and basinal sections from the UK. These data demonstrate a gradual spread of anoxia from basinal to shelfal settings, which we postulate was driven by an enhanced nutrient supply delivered via cooling-induced upwelling. Isotope mass balance modeling supports a major increase in the extent of deeper water ferruginous conditions at this time, while euxinia developed on the continental…
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Taxonomy
TopicsPaleontology and Stratigraphy of Fossils · Geochemistry and Elemental Analysis · Marine and coastal ecosystems
