Litcius/Paper detail

Long-term rise in riverine dissolved organic carbon concentration is predicted by electrolyte solubility theory

Donald T. Monteith, Peter A. Henrys, Jakub Hruška, Heleen A. de Wit, Pavel Krám, Filip Moldan, Maximilian Posch, Antti Räike, John L. Stoddard, Ewan M. Shilland, M. Glória Pereira, Chris Evans

2023Science Advances65 citationsDOIOpen Access PDF

Abstract

, but the factors controlling it remain poorly determined and are largely absent from Earth system models (ESMs). Here, we show, for a range of European headwater catchments, that electrolyte solubility theory explains how declining precipitation ionic strength (IS) has increased the dissolution of thermally moderated pools of soluble soil organic matter (OM), while hydrological conditions govern the proportion of this OM entering the aquatic system. Solubility will continue to rise exponentially with declining IS until pollutant ion deposition fully flattens out under clean air policies. Future DOC export will increasingly depend on rates of warming and any directional changes to the intensity and seasonality of precipitation and marine ion deposition. Our findings provide a firm foundation for incorporating the processes dominating change in this component of the global carbon cycle in ESMs.

Topics & Concepts

Dissolved organic carbonSolubilityDissolutionCarbon cycleEnvironmental chemistryEnvironmental scienceSink (geography)PrecipitationDeposition (geology)Organic matterFlux (metallurgy)Total organic carbonCarbon sinkAtmospheric sciencesChemistryClimate changeSedimentOceanographyEcosystemEcologyGeologyPhysical chemistryMeteorologyBiologyCartographyPhysicsPaleontologyOrganic chemistryGeographyMarine and coastal ecosystemsGroundwater and Isotope GeochemistrySoil and Water Nutrient Dynamics
Long-term rise in riverine dissolved organic carbon concentration is predicted by electrolyte solubility theory | Litcius