Excess nutrients from fertilizer application, pollution discharge, and water regulations outflow through rivers from lands to oceans, seriously impacting coastal water quality and ecosystems.
Excess nutrients from fertilizer application, pollution discharge, and water regulations outflow through rivers from lands to oceans, seriously impacting coastal water quality and ecosystems. Understanding the effects of human activities on riverine nitrogen movement is very important for water environmental management and nitrogen cycle research.
In a recently published paper in Global Change Biology, Prof. XIE Zhenghui, Dr. LIU Shuang, and their co-authors in LASG/Institute of Atmospheric Physics, Chinese Academy of Sciences described how they synchronously incorporated the schemes of river water temperature change, riverine dissolved inorganic nitrogen (DIN) transport and human activities including nitrogen discharge and water regulation into the land surface model CLM4.5 under the framework of CESM1.2.0. Then the model was applied to explore the effects of anthropogenic nitrogen discharge on DIN transport in global rivers.
"We found that DIN in the USA has increased primarily due to the use of nitrogen fertilizers. In contrast, European rivers were affected mainly by point source pollution. However, both aspects are equally important for aquatic environments in China.” Said Xie.
Read more at Institute of Atmospheric Physics, Chinese Academy of Sciences
Image: Worsening water quality in the lower reach of the Pearl River (Obtained from Google Earth Image, compiled and annoated by LIU Shuang)
