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高淳西部圩区水系连通变化对水环境的影响分析OA

Analysis of impacts of water system connectivity changes in the western polder area of Gaochun District on water environment

中文摘要英文摘要

设计5 种水系连通方案并定量评价了南京高淳西部圩区连通性,基于水文与水动力水质模型模拟了各方案下的水环境响应特征.结果表明:河道沟通(方案 1)使漕塘西山河等河道水质显著改善,其氨氮、总磷、总氮年均质量浓度分别降低 0.65、0.14、1.21 mg/L,说明河道沟通可加速污染物衰减;沟通撑龙港河与官溪河(方案 2)虽使撑龙港河氨氮、总磷、总氮年均质量浓度分别降低0.84、0.15、0.90 mg/L,但引发固城湖、横溪河等河道水质轻微下降,说明当超出水体自净能力范围时,河道沟通将污染原本水质较好的水体;河道挖深(方案3)与河道拓宽(方案4)对水环境影响微弱;增加支流(方案 5)可减少漆桥河水量,导致氨氮、总磷、总氮年均质量浓度分别上升 0.11、0.02、0.04 mg/L,从而对下游的固城湖大湖区水环境造成负面影响.

Five water system connectivity schemes were designed to quantitatively evaluate the connectivity of the western polder area of Gaochun District in Nanjing.Based on the hydrological,hydrodynamic,and water quality models,the water environmental response characteristics under each scheme were simulated.The results show that connecting river channels(scheme 1)significantly improved the water quality of rivers such as the Caotang Xishan River,with annual average mass concentrations of ammonia nitrogen,total phosphorus and total nitrogen in the Caotang Xishan River decreasing by 0.65,0.14,and 1.21 mg/L,respectively,indicating that river channel connection can accelerate pollutant attenuation.Connecting the Chenglonggang River and Guanxi River(scheme 2)reduced annual average mass concentrations of ammonia nitrogen,total phosphorus,and total nitrogen in the Chenglonggang River by 0.84,0.15,and 0.90 mg/L,respectively.However,it caused a slight decline in the water quality of Gucheng Lake and rivers such as the Hengxi River,indicating that when the self-purification capacity of the water body is exceeded,the channel connection will pollute originally good-quality water bodies.Deepening river channels(scheme 3)and widening river channels(scheme 4)have a weak impact on the water environment.Increasing tributaries(scheme 5)reduced the water volume of the Qiqiao River,leading to increases in annual average mass concentrations of ammonia nitrogen,total phosphorus and total nitrogen by 0.11,0.02,and 0.04 mg/L,respectively,thereby negatively affecting the water environment of the lake area of Gucheng Lake downstream.

高玉琴;王丽君;李媛媛;唐静

河海大学水利水电学院河海大学水利水电学院水利部淮河水利委员会河海大学水利水电学院

水系连通水环境SWAT模型MIKE11模型高淳西部圩区

water system connectivitywater environmentSWAT modelMIKE11 modelthe western polder area of Gaochun District

《水利水电科技进展》 2026 (2)

1-11,11

江西省水利科技重点项目(202527ZDKT22)江苏省水利科技项目(2023009)

10.3880/j.issn.1006-7647.2026.02.001

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