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Authigenic Formation of Clay Minerals in the Abyssal North Pacific

Zvi Steiner, James Rae, William M. Berelson, Jess F. Adkins, Yi Hou, Sijia Dong, Giulio I. Lampronti, Xuewu Liu, Eric P. Achterberg, Adam V. Subhas, Alexandra V. Turchyn

2022Global Biogeochemical Cycles28 citationsDOIOpen Access PDF

Abstract

Abstract Present estimates of the biogeochemical cycles of calcium, strontium, and potassium in the ocean reveal large imbalances between known input and output fluxes. Using pore fluid, incubation, and solid sediment data from North Pacific multi‐corer cores we show that, contrary to the common paradigm, the top centimeters of abyssal sediments can be an active site of authigenic precipitation of clay minerals. In this region, clay authigenesis is the dominant sink for potassium and strontium and consumes nearly all calcium released from benthic dissolution of calcium carbonates. These observations support the idea that clay authigenesis occurring over broad regions of the world ocean may be a major buffer for ocean chemistry on the time scale of the ocean overturning circulation, and key to the long‐term stability of Earth's climate.

Topics & Concepts

AuthigenicGeologyAbyssal zoneBiogeochemical cycleStrontiumOceanographyAbyssal plainBenthic zoneGeochemistryBiogeochemistryClay mineralsSedimentMineralogySink (geography)Seafloor spreadingDiagenesisChemistryGeomorphologyEnvironmental chemistryGeographyCartographyOrganic chemistryGeology and Paleoclimatology ResearchGroundwater and Isotope GeochemistryMarine and coastal ecosystems