Yongju Kwon, Jongyeong Kim, Joowon Choi, Taeyang Kim, Sung Min Cha, Soonchul Kwon
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引用次数: 0
Abstract
When an artificial structure is built in a river, the river changes significantly in water quality and hydraulic properties. In this study, the effects of the weirs constructed in the middle section of a river as a four major rivers restoration project in Korea on water quality and hydrological characteristics were analyzed. For multi-dimensional data analysis, a self-organizing map was applied, and statistical techniques including analysis of variation were used. As a result of analysis, the cross-sectional area of the river increased significantly after the construction of the weir compared to before the construction of the weir, and the flow velocity decreased at a statistically significant level. In the case of water quality, nitrogen, phosphorus, and suspended solids tended to improve after weir construction, and chlorophyll-a and bacteria tended to deteriorate. Some water quality parameters such as chlorophyll-a were also affected by seasonal influences. In order to improve the water quality deteriorated by the construction of the weir, it is necessary to consider how to improve the flow velocity of the river through partial opening or operation of the weir. In addition, in order to determine the effect of sedimentation of particulate matter due to the decrease in flow rate, it is necessary to conduct investigations on sediments around weirs in the future. PRACTITIONER POINTS: Compared to before the construction of the weir, there was no significant change in the flow rate of the river after the construction of the weir. In the case of chlorophyll-a and bacteria, the water quality was deteriorated after weir construction. To improve the deteriorated water quality, it is required to consider the fundamental management of each pollutant source and the flexible operation of both weirs. For some improved water quality parameters, further research is needed to determine whether these improvements are directly attributable to the construction of a weir.
在河流中修建人工建筑物时,河流的水质和水文特性会发生显著变化。本研究分析了作为韩国四大河流修复项目之一在河流中段修建的围堰对水质和水文特征的影响。在进行多维数据分析时,采用了自组织图,并使用了包括变异分析在内的统计技术。分析结果表明,与筑堰前相比,筑堰后河流断面面积显著增加,流速在统计意义上显著下降。在水质方面,堰塞湖建成后,氮、磷、悬浮物等指标趋于改善,叶绿素 a 和细菌指标趋于恶化。叶绿素-a 等一些水质参数还受到季节影响。为了改善因修建堰塞湖而恶化的水质,有必要考虑如何通过部分打开或运行堰塞湖来提高河流流速。此外,为了确定流速降低对颗粒物沉积的影响,今后有必要对围堰周围的沉积物进行调查。实践点:与筑堰前相比,筑堰后河流流速没有明显变化。在叶绿素-a 和细菌方面,围堰建成后水质有所恶化。要改善恶化的水质,需要考虑从根本上治理各污染源,并灵活运行两座堰塘。对于某些水质参数的改善,还需要进一步研究,以确定这些改善是否直接归因于堰塞湖的修建。
期刊介绍:
Published since 1928, Water Environment Research (WER) is an international multidisciplinary water resource management journal for the dissemination of fundamental and applied research in all scientific and technical areas related to water quality and resource recovery. WER''s goal is to foster communication and interdisciplinary research between water sciences and related fields such as environmental toxicology, agriculture, public and occupational health, microbiology, and ecology. In addition to original research articles, short communications, case studies, reviews, and perspectives are encouraged.