文献类型: 外文期刊
第一作者: Ding, Jingtao
作者: Ding, Jingtao;Meng, Haibo;Shen, Yujun;Cheng, Hongsheng;Ding, Jingtao;Meng, Haibo;Shen, Yujun;Cheng, Hongsheng;Xi, Beidou;Xu, Qigong
作者机构:
期刊名称:ENVIRONMENTAL SCIENCE-PROCESSES & IMPACTS ( 影响因子:4.238; 五年影响因子:4.327 )
ISSN: 2050-7887
年卷期: 2019 年 21 卷 3 期
页码:
收录情况: SCI
摘要: The considerable spatial and temporal variabilities of nitrogen (N) processing introduce large uncertainties for quantifying N cycles on a large scale, particularly in plain river network regions with complicated hydrographic connections and mixed multiple N sources. In this paper, the dual isotopes delta N-15 and delta O-18 and dissolved anions in regularly collected samples (n = 10) from the studied river, which is one of the most seriously polluted rivers in the plain river network regions of the Taihu Lake catchment, were analyzed to ascertain the main nitrate (NO3-)sources and watershed N processing in the context of monsoon climate. The seasonal variations in precipitation, temperature, and hydrology play key roles in the regulation of the river NO3-concentration, NO3-sources, and watershed N processing. Nitrification of N-containing materials in the soil was possibly the major source of NO3-all year round, especially in the rainy season, whereas manure and sewage significantly contributed to the NO3-load in the Taige River in the dry season. Nitrification and denitrification processes within the area were closely related. The significant negative relationship between the water temperature and delta O-18-NO3-values indicated the occurrence of nitrification in the soil throughout the year. By contrast, seasonal variations of denitrification were apparent from May to July with the high soil temperature and moisture, thereby indicating the occurrence of denitrification (22.9%) within the watershed. After the assessment of temporal variations of NO3-sources and watershed N processing, improved environmental management practices can be implemented to protect water resources and prevent further water quality deterioration in human-impacted watersheds.
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