Rivers play a key role in linking between terrestrial and aquatic ecosystems, and are becoming important sinks of nitrogen (N). However, quantifying N export from terrestrial ecosystems to rivers at large scales is still challenging, due to the heterogeneous characteristics of watersheds in hydrology, land use, geology, climatology, etc. N export from terrestrial ecosystems to rivers is basically controlled by N balances and driven by hydrological processes. Here a model of watershed export coefficient (E (ws) ) of dissolved inorganic nitrogen (DIN) is proposed to describe the dynamic processes of DIN export to the river from non-point sources (NPS), with emphasis on the changing N balance and hydrology in the Changjiang River basin during ...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
This study provides a new approach to estimate both anthropogenic non-point-source and point-source ...
Exploratory Forefront Project for the Strategic Science Plan in IGSNRR, CAS 2012QY001;State Key Lab...
A quantitative understanding of riverine nitrogen (N) export in response to human activities and cli...
Legacy anthropogenic nitrogen (N) has been suggested as a major cause for increasing riverine N expo...
Riverine nitrogen (N) export is a crucial process that links upstream and downstream ecosystems and ...
Abstract Nitrogen (N) transport from land to rivers, estuaries, and coastal marine systems has been ...
In China, many estuaries suffer from eutrophication problems such as green tides and hypoxia. This i...
In this paper, we estimate the inputs of nitrogen (N) and exports of dissolved inorganic nitrogen (D...
The global NEWS model was calibrated and then used to quantify the long term trend of dissolved inor...
This study quantified the long-term response of riverine total nitrogen (TN) export to changes in ne...
There are increasing concerns in nitrogen (N) pollution worldwide, especially in aquatic ecosystems,...
Fast population and economic growth has largely influenced anthropogenic inputs and riverine export ...
This study demonstrates the importance of the nitrogen-leaching lag effect, soil nitrogen release, a...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
This study provides a new approach to estimate both anthropogenic non-point-source and point-source ...
Exploratory Forefront Project for the Strategic Science Plan in IGSNRR, CAS 2012QY001;State Key Lab...
A quantitative understanding of riverine nitrogen (N) export in response to human activities and cli...
Legacy anthropogenic nitrogen (N) has been suggested as a major cause for increasing riverine N expo...
Riverine nitrogen (N) export is a crucial process that links upstream and downstream ecosystems and ...
Abstract Nitrogen (N) transport from land to rivers, estuaries, and coastal marine systems has been ...
In China, many estuaries suffer from eutrophication problems such as green tides and hypoxia. This i...
In this paper, we estimate the inputs of nitrogen (N) and exports of dissolved inorganic nitrogen (D...
The global NEWS model was calibrated and then used to quantify the long term trend of dissolved inor...
This study quantified the long-term response of riverine total nitrogen (TN) export to changes in ne...
There are increasing concerns in nitrogen (N) pollution worldwide, especially in aquatic ecosystems,...
Fast population and economic growth has largely influenced anthropogenic inputs and riverine export ...
This study demonstrates the importance of the nitrogen-leaching lag effect, soil nitrogen release, a...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
We analyzed past and future trends in river export of dissolved nitrogen (N) and phosphorus (P) to t...
This study provides a new approach to estimate both anthropogenic non-point-source and point-source ...
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