赣抚平原灌渠水体氮磷污染来源识别与贡献评估OACHSSCD
Identification and Contribution Assessment of Nitrogen and Phosphorus Pollution Sources in the Ganfu Plain Irri-gation District
灌渠水质对农业种植、工业生产与居民生活至关重要.本研究于赣抚平原西总干渠下游开展为期 5a的水质监测,查明水质参数变化规律,采用主成分分析(PCA)和主成分得分-多元线性回归受体模型(APCS-MLR),识别和量化主要污染来源.结果显示:2017-2021 年,灌渠水体总磷浓度为0~2.12 mg·L-1,多数不满足GB 3838-2002《地表水环境质量标准》中Ⅴ类标准;总氮浓度主要为 1.0~2.0 mg·L-1,部分超过 2.0 mg·L-1,不满足GB 3838-2002 中Ⅴ类标准;铵态氮浓度多数为0.01~0.1 mg·L-1;硝态氮浓度集中在0.4~1.5 mg·L-1 之间.主成分分析表明,灌渠水质丰水期主要受气象因素、农业活动和水沙作用的影响,而枯水期与工业废水、生活污水和畜禽养殖等因素相关.APCS-MLR模型进一步量化了污染源贡献:丰水期,农业种植和畜禽养殖对总磷的贡献率分别为 45.3%和 32.7%;气象因素和未知源对总氮和硝态氮的贡献率分别为 38.5%和 28.9%;生活污水、地表径流和未知源对铵态氮的贡献率分别为41.2%、25.6%和33.2%.枯水期,畜禽养殖对总磷、总氮和硝态氮的贡献率分别为 56.8%、48.3%和 52.4%;生活污水和畜禽养殖对铵态氮的贡献率分别为 62.1%和 37.9%.研究成果有助于理解灌渠水体氮磷污染物循环理论,也为灌渠水质管理与保护提供科学依据.
The water quality of irrigation canal is crucial for agricultural cultivation,industrial production,and resident livings.In this study,a five-year water quality monitoring program was conducted in the lower Western Main Canal of the Ganfu Plain.The aims were to investigate the variations of water quality parameters,to identify and quantify the major pol-lution sources using principal component analysis(PCA)and the absolute principal component score-multiple linear re-gression(APCS-MLR)receptor model.The results show that the total phosphorus(TP)concentration ranged from 0 to 2.12 mg·L-1 in the canal water from 2017 to 2021,with most values exceeding the Class V standard limit of the Surface Water Environmental Quality Standards(GB 3838-2002).The total nitrogen concentration primarily ranged between 1.0 and 2.0 mg·L-1,with some values exceeding 2.0 mg·L-1,surpassing the Class V standard limit.The ammonium nitro-gen(NH4+-N)concentration mostly ranged between 0.01 and 0.1 mg·L-1,whereas the nitrate nitrogen(NO3--N)con-centration changed between 0.4 and 1.5 mg·L-1.PCA analysis revealed that canal water quality was mainly affected by meteorological factors,agricultural activities,and water-sediment interactions in the wet season,while it was associated with industrial wastewater,domestic sewage,and livestock farming in the dry season.The APCS-MLR model further quan-tified the pollution source contributions:agricultural cultivation and livestock farming contributed 45.3%and 32.7%to TP,respectively,meteorological factors and unknown sources accounted for 38.5%and 28.9%of TN and NO3--N,re-spectively,and domestic sewage,surface runoff,and unknown sources contributed 41.2%,25.6%,and 33.2%to NH4+-N;livestock farming contributed 56.8%,48.3%,and 52.4%to TP,TN,and NO3--N,respectively,while domestic sewage and livestock farming accounted for 62.1%and 37.9%of NH4+-N,respectively.The findings enhance the under-standing of nitrogen and phosphorus pollutant cycling in irrigation canals and provide a scientific basis for water quality management and protection.
李筱慧;饶文波;栗天宁;吴志华;郑芳文;张弛;雷祥
河海大学地球科学与工程学院,江苏 南京 211100河海大学地球科学与工程学院,江苏 南京 211100生态环境部南京环境科学研究所,江苏 南京 210042江西省赣抚平原水利工程管理局,江西 南昌 330096江西水利电力大学水利与生态工程学院,江西 南昌 330099河海大学地球科学与工程学院,江苏 南京 211100河海大学地球科学与工程学院,江苏 南京 211100
资源环境
水质参数西总干渠多元统计分析模型污染来源赣抚平原灌区
water quality parametersWest Main Canalmultivariate statistical analysis modelpollution sourcesGanfu Plain Irrigation District
《生态与农村环境学报》 2026 (3)
346-358,13
江西省水利厅科技项目(202223YBKT34)中国科学院对外合作重点项目(131432KYSB20200029)
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