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Seafloor hydrothermal systems control long-term changes in seawater [Li <sup>+</sup> ]: Evidence from fluid inclusions

Mebrahtu Weldeghebriel, Tim K. Lowenstein

2023Science Advances26 citationsDOIOpen Access PDF

Abstract

Secular variations in the major ion chemistry and isotopic composition of seawater on multimillion-year time scales are well documented, but the causes of these changes are debated. Fluid inclusions in marine halite indicate that the Li concentration in seawater [Li + ] SW declined sevenfold over the past 150 million years (Ma) from ~184 μmol/kg H 2 O at 150 Ma ago to 27 μmol/kg H 2 O today. Modeling of the lithium geochemical cycle shows that the decrease in [Li + ] SW was controlled chiefly by long-term decreases in ocean crust production rates and mid-ocean ridge and ridge flank hydrothermal fluxes without requiring changes in continental weathering fluxes. The decrease in [Li + ] SW parallels the 150 Ma increase in seawater Mg 2+ /Ca 2+ and 87 Sr/ 86 Sr, and the change from calcite to aragonite seas, KCl to MgSO 4 evaporites, and greenhouse to icehouse climates, all of which point to the importance of plate tectonic activity in regulating the composition of Earth’s hydrosphere and atmosphere.

Topics & Concepts

SeawaterHaliteGeologyEvaporiteHydrothermal circulationCalciteHydrosphereSeafloor spreadingGeochemistryGeochemical cycleWeatheringOcean acidificationMineralogyContinental crustOceanographyCrustPaleontologySedimentary rockBiologyBiosphereGypsumEcologyGeochemistry and Elemental AnalysisPaleontology and Stratigraphy of FossilsGeology and Paleoclimatology Research
Seafloor hydrothermal systems control long-term changes in seawater [Li <sup>+</sup> ]: Evidence from fluid inclusions | Litcius