Litcius/Paper detail

Global silicate weathering flux overestimated because of sediment–water cation exchange

Edward T. Tipper, Emily Stevenson, Victoria Alcock, Alasdair C. G. Knight, J. Jotautas Baronas, Robert Hilton, M. J. Bickle, Christina Larkin, Linshu Feng, K. Relph, Genevieve Hughes

2020Proceedings of the National Academy of Sciences112 citationsDOIOpen Access PDF

Abstract

of nonsilicate origin to the dissolved load, especially in catchments with widespread marine sediments, or where rocks have equilibrated with saline basement fluids. We quantify this by comparing the riverine sediment exchange pool and river water chemistry. In some basins, cation exchange could account for the majority of sodium in the river water, significantly reducing estimates of silicate weathering. At a global scale, we demonstrate that silicate weathering fluxes are overestimated by 12 to 28%. This overestimation is greatest in regions of high erosion and high sediment loads where the negative climate feedback has a maximum sensitivity to chemical weathering reactions. In the context of other recent findings that reduce the net [Formula: see text] consumption through chemical weathering, the magnitude of the continental silicate weathering fluxes and its implications for solid Earth [Formula: see text] degassing fluxes need to be further investigated.

Topics & Concepts

WeatheringSilicateSedimentDissolutionErosionFlux (metallurgy)Environmental scienceNutrientAtmosphere (unit)Silicate mineralsMineralCarbon fibersFloodplainEnvironmental chemistryGeochemistryHydrology (agriculture)GeologyChemistryGeomorphologyEcologyMaterials scienceOrganic chemistryPhysical chemistryComposite numberBiologyComposite materialGeotechnical engineeringPhysicsThermodynamicsGeology and Paleoclimatology ResearchGroundwater and Isotope GeochemistryGeochemistry and Elemental Analysis