Add to ORKGThere has been considerable debate as to how natural forcing and anthropogenic activities alter the timing and magnitude of the delivery of dissolved organic carbon (DOC) to the coastal ocean, which has ramifications for the ocean carbon budget, land-ocean interactions, and coastal life. Here we present an analysis of DOC export from the Mississippi River to the Gulf of Mexico during 1901–2010 as influenced by changes in climate, land use and management practices, atmospheric CO2, and nitrogen deposition, through the integration of observational data with a coupled hydrologic/biogeochemical land model. Model simulations show that DOC export in the 2000s increased more than 40% since the 1900s. For the recent three decades (1981–2010), howev...
Rivers are an important component of the terrestrial-aquatic ocean continuum as they serve as a cond...
This is the final version. Available on open access from AGU via the DOI in this record.The dataset ...
We examined seasonal and spatial patterns in dissolved organic carbon (DOC) and chromophoric dissolv...
Knowledge about the annual and seasonal patterns of organic and inorganic carbon (C) exports from th...
Ongoing climate change is affecting the concentration, export (flux), and timing of dissolved organi...
Anthropogenic landscape alterations have increased global carbon transported by rivers to oceans sin...
The lateral transport and degassing of carbon in riverine ecosystems is difficult to quantify on lar...
The water and dissolved inorganic carbon exported by rivers are important net fluxes that connect te...
Anthropogenic landscape alterations have increased global carbon transported by rivers to oceans sin...
This study uses a neural network model trained with in situ data, combined with satellite data and h...
We used a process-based land model, Dynamic Land Ecosystem Model 2.0, to examine how climatic and an...
Sources, abundance, isotopic compositions, and export fluxes of dissolved inorganic carbon (DIC), di...
Each year, tropical rivers export a dissolved organic carbon (DOC) flux to the global oceans that is...
Low‐frequency high‐magnitude hydrologic events mobilize a disproportionate amount of dissolved organ...
Estuaries regulate transport of dissolved organic carbon (DOC) from land to ocean. Export of terrest...
Rivers are an important component of the terrestrial-aquatic ocean continuum as they serve as a cond...
This is the final version. Available on open access from AGU via the DOI in this record.The dataset ...
We examined seasonal and spatial patterns in dissolved organic carbon (DOC) and chromophoric dissolv...
Knowledge about the annual and seasonal patterns of organic and inorganic carbon (C) exports from th...
Ongoing climate change is affecting the concentration, export (flux), and timing of dissolved organi...
Anthropogenic landscape alterations have increased global carbon transported by rivers to oceans sin...
The lateral transport and degassing of carbon in riverine ecosystems is difficult to quantify on lar...
The water and dissolved inorganic carbon exported by rivers are important net fluxes that connect te...
Anthropogenic landscape alterations have increased global carbon transported by rivers to oceans sin...
This study uses a neural network model trained with in situ data, combined with satellite data and h...
We used a process-based land model, Dynamic Land Ecosystem Model 2.0, to examine how climatic and an...
Sources, abundance, isotopic compositions, and export fluxes of dissolved inorganic carbon (DIC), di...
Each year, tropical rivers export a dissolved organic carbon (DOC) flux to the global oceans that is...
Low‐frequency high‐magnitude hydrologic events mobilize a disproportionate amount of dissolved organ...
Estuaries regulate transport of dissolved organic carbon (DOC) from land to ocean. Export of terrest...
Rivers are an important component of the terrestrial-aquatic ocean continuum as they serve as a cond...
This is the final version. Available on open access from AGU via the DOI in this record.The dataset ...
We examined seasonal and spatial patterns in dissolved organic carbon (DOC) and chromophoric dissolv...