Sources and Processes Affecting Nitrate in a Dam-Controlled Subtropical River,Southwest China

Excess nutrient (N and P) loads are recognized as the major cause of serious water quality problems in China. River systems play a very important role in nitrate (NO₃ ^?) transportation and transformation in the aquatic environment. To understand and clarify the sources and processes affecting NO₃ ^? in river basins, we have examined spatial and temporal variations of concentration and dual-isotopic composition of NO₃ ^? in the dam-controlled Jialing River, a major tributary of the Yangtze River where land use is dominated by agriculture. Water samples were collected in July 2008 and February 2009 from the main channel of the Jialing River and its major tributaries. The δ¹⁵N and δ¹⁸O of NO₃ ^? range from 1.5 to 11.0 ‰ (average 6.2 ‰) and ?5.0 to 11.1 ‰ (average, 1.6 ‰), respectively. NO₃ ^? isotope data and δ¹⁸O of water interpreted in combination with hydrological and chemical data suggest that most of the NO₃ ^? input is from nitrification during the rainy season, and discharge of sewage and manure in the upper course and from cities accounts for much of the NO₃ ^? load during the dry season. The construction of cascade dams has led to retention of Si and a decrease in the Si/N ratio, implying that assimilation and/or denitrification may significantly affect NO₃ ^? in the dam area, as demonstrated by NO₃ ^? and dissolved Si concentrations, and (updelta^{ 1 5} {text{N}}_{{{text{NO}}_{3} }}) and (updelta^{ 1 8} {text{O}}_{{{text{NO}}_{3} }}) values. This study indicates that dual-isotopic data can be used to identify NO₃ ^? pollution sources and the processes NO₃ ^? has undergone during its retention and transport in the watershed of the dam-controlled Jialing River.