Add to ORKGRapid changes in land use, pollution inputs, and climate are altering the quantity, timing and form of materials delivered from watersheds to estuaries. To better characterize these alterations simultaneous measurements of biogeochemical conditions in watersheds and estuaries over a range of times scales are needed. We examined the strength of watershed-estuarine biogeochemical coupling using data of in situ measurements of nitrate, terrestrial dissolved organic carbon (DOC) and chloride collected over a seven-month period in a nitrogen impaired estuary in the northeastern US. The watershed was observed exerting strong control over concentrations of terrestrially derived DOC in the estuary, attributable to relative homogeneity of watershed ...
Estuaries significantly impact the global carbon cycle by regulating the exchange of organic matter,...
Estuaries are highly productive ecosystems that support many endangered and commercially important s...
High-frequency, in-situ monitoring provides large environmental datasets. These datasets will likely...
Agricultural intensification in the Midwestern U.S. and the resultant downstream transport of nitrog...
Estuaries function as important transporters, transformers, and producers of organic matter (OM). Al...
An edited version of this paper was published by AGU. Copyright 2018 American Geophysical Union.Exce...
Nonpoint pollution sources are strongly influenced by hydrology and are therefore sensitive to clima...
Land use/land cover (LULC) change has significant impacts on nutrient loading to aquatic systems and...
Sea level rise has increased the frequency of tidal flooding even without accompanying precipitation...
Nitrogen plays a dual role in coastal oceans. It sustains primary production, the foundation of coa...
As harmful algal blooms begin to appear in unexpected places such as rivers in predominantly foreste...
Tidal freshwater wetlands are ideal sites for nitrate retention because of their position within the...
Storm events dominate riverine loads of dissolved organic carbon (DOC) and nitrate and are expected ...
The primary objective of this activity is to predict how coastal processes, such as tides, affect sa...
Sea level rise has increased the frequency of tidal flooding even without accompanying precipitation...
Estuaries significantly impact the global carbon cycle by regulating the exchange of organic matter,...
Estuaries are highly productive ecosystems that support many endangered and commercially important s...
High-frequency, in-situ monitoring provides large environmental datasets. These datasets will likely...
Agricultural intensification in the Midwestern U.S. and the resultant downstream transport of nitrog...
Estuaries function as important transporters, transformers, and producers of organic matter (OM). Al...
An edited version of this paper was published by AGU. Copyright 2018 American Geophysical Union.Exce...
Nonpoint pollution sources are strongly influenced by hydrology and are therefore sensitive to clima...
Land use/land cover (LULC) change has significant impacts on nutrient loading to aquatic systems and...
Sea level rise has increased the frequency of tidal flooding even without accompanying precipitation...
Nitrogen plays a dual role in coastal oceans. It sustains primary production, the foundation of coa...
As harmful algal blooms begin to appear in unexpected places such as rivers in predominantly foreste...
Tidal freshwater wetlands are ideal sites for nitrate retention because of their position within the...
Storm events dominate riverine loads of dissolved organic carbon (DOC) and nitrate and are expected ...
The primary objective of this activity is to predict how coastal processes, such as tides, affect sa...
Sea level rise has increased the frequency of tidal flooding even without accompanying precipitation...
Estuaries significantly impact the global carbon cycle by regulating the exchange of organic matter,...
Estuaries are highly productive ecosystems that support many endangered and commercially important s...
High-frequency, in-situ monitoring provides large environmental datasets. These datasets will likely...