汉江下游水质的长期变化

Myoung-sun Shin, Jaeyong Lee, Bomchul Kim, Y. Bae
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引用次数: 6

摘要

汉江是拥有2000万人口的首都圈的主要水源,其富营养化是维持饮用水质量的重要问题。本研究利用环境部的数据,分析了1989 - 2006年长江下游圣桂河流域生物需氧量(BOD)、化学需氧量(COD)、总磷(TP)、总氮(TN)和悬浮物的长期变化趋势。测定了八堂坝至行州大桥下游总磷、总氮和叶绿素a浓度的纵向分布。长期平均BOD为1.82±0.67 mg/L,呈下降趋势,而COD变化不一致,长期平均为3.46±0.87 mg/L,因此BOD/COD比值下降。这种模式可以解释为不可生物降解的有机物/可生物降解的有机物比率呈上升趋势,这可归因于污水处理的加强。浓度的长期记录没有一致的变化趋势,而季节变化非常大,在汛期浓度较高。反之,浮游植物密度在枯水期较高。水力停留时间似乎是控制浮游植物生长的主要因素,这在水生环境中是典型的,它压倒了温度、营养物质和太阳辐射等其他因素的影响。综上所述,汉江下游水系BOD下降,但不可降解有机质和磷浓度没有下降。
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Long-term variations in water quality in the lower Han River
The Han River is the main water resource for the Seoul metropolitan area (Korea) with twenty million people relying on it, and its eutrophication is of great concern for preserving drinking water quality. In this study, long-term trends in biological oxygen demand (BOD), chemical oxygen demand (COD), total phosphorus (TP), total nitrogen (TN), and suspended solids at a downstream site of the river (St. Gui) are presented from 1989 to 2006 using data from the Ministry of the Environment. Longitudinal distributions in TP, TN, and chlorophyll-a concentration were measured in the downstream reaches between the Paldang Dam and Haengju Bridge. The long-term average BOD was 1.82 ± 0.67 mg/L and showed a decreasing trend, whereas COD did not vary consistently with a long-term average of 3.46 ± 0.87 mg/L, and consequently, the BOD/COD ratio decreased. This pattern can be interpreted as an increasing trend in the nonbiodegradable organic matter/biodegradable organic matter ratio, which can be attributed to enhanced sewage treatment. The long-term record for concentration did not show a consistent delate trend, whereas the seasonal variation was remarkably large with high concentrations during the flood season. In contrast, phytoplankton density was higher during low-flow seasons. It seemed that hydraulic residence time was the major factor controlling phytoplankton, as is typical in a lotic environment, which overwhelmed the effects of other factors such as temperature, nutrients, and solar radiation. In conclusion, BOD has decreased in the lower Han River system, but nonbiodegradable organic matter and phosphorus concentrations have not decreased.
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