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Source Switching Maintains Dissolved Organic Matter Chemostasis Across Discharge Levels in a Large Temperate River Network

Jacob D. Hosen, Kelly S. Aho, Jennifer H. Fair, Ethan D. Kyzivat, Serena Matt, Jonathan Morrison, Aron Stubbins, L. Weber, Byungman Yoon, Peter A. Raymond

2020Ecosystems52 citationsDOI

Topics & Concepts

Environmental scienceDissolved organic carbonTributaryAquatic ecosystemEcosystemSTREAMSWatershedTemperate climateHydrology (agriculture)EcologyTerrigenous sedimentPrimary productionSedimentGeographyGeologyBiologyComputer scienceMachine learningPaleontologyGeotechnical engineeringCartographyComputer networkMarine and coastal ecosystemsFish Ecology and Management StudiesSoil and Water Nutrient Dynamics
Source Switching Maintains Dissolved Organic Matter Chemostasis Across Discharge Levels in a Large Temperate River Network | Litcius