分摊
环境科学
比例(比率)
流域
水文学(农业)
污染
环境工程
排放清单
水资源管理
气象学
地理
工程类
生态学
空气质量指数
法学
岩土工程
政治学
生物
地图学
作者
Wenzhuo Wang,Lei Chen,Chen Lin,Yong Liu,Xin Dong,Junfeng Xiong,Guowangchen Liu,Yuhan Zhang,Jiaqi Li,Zhenyao Shen
标识
DOI:10.1016/j.jenvman.2022.116842
摘要
Data scarcity has caused enormous problems in non-point pollution predictions and the related source apportionment. In this study, a new framework was developed to undertake the source apportionment at a large-scale and ungauged catchment, by integrating the physically-based model and a surrogate model. The improvements were made, in terms of the application of a physically-based model in an ungauged area for the transfer process and the parametric transplantation process. The new framework was then tested in the Chaohu Lake basin, China. The result suggested that there has been a good match between simulated and observed data. Although the planting industry was the largest emission source with 48.16% of nitrogen (N), itonly contributed 12.61% of N flux to the Chaohu Lake. The ungauged catchments surrounding the Chaohu Lake were identified as non-negligible sources with 8.46% of phosphorus (P) contribution. The rainfall conditions could have great impacts on source apportionment results; e.g., the planting industry contributed from 68.17t of P in dry year to 436.02t in wet year. The new framework could be extended to other large-scale watersheds for source apportionment with data limitations.
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