[Analysis of Water Quality of Le'an River in Poyang Lake Basin Based on CCME-WQI Method].

Q2 Environmental Science 环境科学 Pub Date : 2024-09-08 DOI:10.13227/j.hjkx.202309243
Yi Wu, Cheng Wang, Hua Wang, Xiao-Ying Li, Hao-Sen Xu
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Abstract

As the largest freshwater lake in China, Poyang Lake plays a key role in supporting the balance of aquatic ecosystems, and the water quality of its inlet rivers affects the lake's water quality. Le'an River, a typical inlet river of Poyang Lake, was selected as the research object. Based on the water quality data of six monitoring points in the upper, middle, and lower reaches of the mainstream of Le'an River from 2012 to 2020, the CCME-WQI method was used to evaluate the water quality of the river after systematically analyzing the spatiotemporal variation of the concentration of pollutants in the mainstream of the river. Finally, the main influencing factors of the water quality of the river were extracted and analyzed according to the PCA method. The results showed that: ① The water volume upstream and downstream of the river was more seriously polluted in the pre-study time period, which was due to the presence of Dexing Copper Mine in the upstream and small and medium-sized mines and farmland downstream. ② Before 2017, the water volume downstream of Le'an River had the worst water quality, with TP and NH4+-N exceeding the standard rate of 43.3% and 85.0%, respectively, and the lowest WQI mean value of 86.2. After 2017, due to the effective management of pollutant discharges in the watershed, the water volume downstream of the river improved significantly and continued to be in an excellent state, and the mean value of the WQI reached 100.0. ③ The factors influencing the water quality of the mainstem of the Le'an River could be divided into four categories: human activities, seasonal factors, atmospheric deposition of pollutants, and the physical and chemical properties of the water volume itself, with human activities being the dominant factor for water quality changes at Dawuhekou and Shizhenjie, whereas the seasonal factors had the greatest influence at the remaining locations. ④ Organic matter pollution was obvious in the upper and lower Le'an River water volume, and the water volume at Dawuhekou was mainly affected by nearby mining activities, whereas the water volume at Shizhenjie was mainly affected by agriculture. Le'an River had serious organic matter pollution downstream before 2017, and mining and agricultural activities in the watershed had a high degree of impact on water quality. The treatment of mineral processing wastewater should be upgraded, and the discharge of pollutants from agriculture in the downstream of the watershed should be regulated.

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[基于 CCME-WQI 方法的鄱阳湖流域乐安河水质分析]。
作为中国最大的淡水湖,鄱阳湖在支撑水生生态系统平衡方面发挥着关键作用,其入湖河流的水质影响着鄱阳湖的水质。鄱阳湖的典型入湖河流--乐安河被选作研究对象。根据 2012-2020 年乐安河主流上、中、下游 6 个监测点位的水质数据,在系统分析乐安河主流污染物浓度时空变化的基础上,采用 CCME-WQI 法对乐安河水质进行评价。最后,根据 PCA 方法提取并分析了河流水质的主要影响因子。结果表明:①研究前期,河流上下游水量污染较为严重,这是由于上游有德兴铜矿,下游有中小型矿山和农田所致。② 2017 年以前,乐安河下游水量水质最差,TP 和 NH4+-N 超标率分别为 43.3%和 85.0%,WQI 均值最低,为 86.2。2017 年后,由于流域污染物排放得到有效治理,河道下游水量明显改善,持续处于优良状态,WQI 均值达到 100.0。影响乐安河干流水质的因素可分为人类活动、季节因素、污染物大气沉降和水量本身的理化性质四类,其中人类活动是大武河口和石镇街水质变化的主导因素,而季节因素对其余地点的影响最大。乐安河上下游水量有机物污染明显,大武河口水量主要受附近采矿活动影响,而石 镇街水量主要受农业影响。乐安河在 2017 年以前下游有机物污染严重,流域内采矿和农业活动对水质影响较大。应提升选矿废水处理水平,规范流域下游农业污染物排放。
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来源期刊
环境科学
环境科学 Environmental Science-Environmental Science (all)
CiteScore
4.40
自引率
0.00%
发文量
15329
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