Abstract

The West Lake is a World Heritage site in the West Lake watershed in eastern China. In this study, the hydrogeological and dual isotopic approaches were integrated to evaluate the seasonal and spatial variations of nitrate (NO3−) in the West Lake watershed, and to characterize NO3− sources and transformations. The results revealed that the geochemical facies of the water samples were dominated by Ca2++Na+–HCO3−+SO42− in the surface water and transfer water, Ca2++Na+–HCO3− and Ca2++Na+–SO42− in the groundwater, which most likely reflect natural reactions and anthropogenic inputs. About 13% of the groundwater samples containing NO3− exceeded the World Health Organization (WHO) standard of 10mgNL−1. NO3− was the dominant form of total nitrogen (TN) and was the main surface water contaminant in the West Lake watershed. The δ15NNO3 and δ18ONO3 values indicated that the dominant NO3− sources in surface water were soil nitrogen (soil N) and chemical fertilizers, while the main NO3− sources in groundwater were soil N from the forest, chemical fertilizers and manure in the tea garden, domestic sewage from the small, old residential area in the forest as well as urban areas. The distribution of NO3− in groundwater was strongly influenced by land use. Results also suggest that there was significant nitrification in surface water and groundwater in the West Lake watershed, and that there were also denitrification processes in groundwater. The annual net fluxes of TN, NO3−, and NH4+ into the West Lake were 2.0×104, 4.0×103, and 1.31×104kg as N, respectively.

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