An innovative approach to identifying agricultural pollution sources and loads by using nutrient export coefficients in watershed modeling

•Export coefficients were incorporated with the SWAT model to identify ANPSs.•ANPSs were isolated and identified from other sources at the watershed scale.•Pollutant delivery ratios of different subbasins were demonstrated graphically.•Contributions of different ANPSs and pollutant export intensity...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) 2019-04, Vol.571, p.322-331
Main Authors: Hua, Lingling, Li, Wenchao, Zhai, Limei, Yen, Haw, Lei, Qiuliang, Liu, Hongbin, Ren, Tianzhi, Xia, Ying, Zhang, Fulin, Fan, Xianpeng
Format: Article
Language:English
Subjects:
Agricultural sources
Export coefficient
Nonpoint source pollution
SWAT
SWAT-ECA
Three Gorges Reservoir Region
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Summary:•Export coefficients were incorporated with the SWAT model to identify ANPSs.•ANPSs were isolated and identified from other sources at the watershed scale.•Pollutant delivery ratios of different subbasins were demonstrated graphically.•Contributions of different ANPSs and pollutant export intensity were quantified.•Agricultural pollutants retained in hilly and mountain regions were relatively low. Agricultural nonpoint source (ANPS) pollution has become a major reason for eutrophication in many regions of the world. However, it is still difficult to identify the relative contributions of different ANPSs to the nutrient export flux at the watershed outlet due to a lack of effective methods. The export coefficient approach (ECA) and the Soil and Water Assessment Tool (SWAT), which is a process-based watershed simulation model with aquatic nutrient retention simulation modules, were implemented to identify the ANPS and its associated quantitative contributions in the Three Gorges Reservoir Region, China. By using the SWAT-ECA framework, nutrient loadings to the river reaches in the subbasin and the export flux at the outlet of the watershed, which were derived from individual agricultural sources in each subbasin, were quantified accordingly. The primary goal of this study is to quantify the pollutant loads from different agricultural sources by using SWAT-ECA. The proposed work was conducted in the Xiangxi River Watershed of the Three Gorges Reservoir Region, Hubei Province, China. The total nitrogen (TN) and total phosphorus (TP) loads that were generated from the agricultural sources were 1299.1 t a−1 and 97.4 t a−1, respectively. Livestock production was the main source of the TN load, accounting for 82% of agricultural TN load. Livestock production and crop cultivation were the main sources of the TP load, accounting for 52% and 42%, respectively. The delivery ratios of N and P from the source areas to the watershed outlet were relatively high in the study watershed. TN (1234 t a−1) and TP (87.1 t a−1) from agricultural sources were ultimately released to the reservoir area, which accounted for 40.2% and 37.6%, respectively, of the total fluxes from the whole watershed. The comprehensive approach that is proposed in this study can be useful for identifying the contributions of individual agricultural sources to the nutrient export flux at the watershed outlet.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2019.01.043