Impact of Nutrient Reduction on Organic Matter (COD and TOC) in Coastal Embayments: Effect of the Reduction and Its Working Mechanism

Journal of Japan Society on Water Environment Pub Date : 2021-01-01 DOI:10.2965/jswe.44.185

T. Fujiwara, Motoharu Suzuki, Kei Okubo

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引用次数: 1

Abstract

Because of the reduction of nutrients in marine areas nationwide, the rates of achieving total nitrogen （ TN ） and total phosphorus （ TP ） water quality standards have reached 96% and 95%, respectively. Nevertheless, the achievement rate of the chemical oxygen demand （ COD ） standard has remained almost unchanged over the last 30 years. The cause of this discrepancy was investigated in Osaka Bay and the following was found. Eutrophication measures such as “TN reduction to suppress the occurrence of high-concentration phytoplankton blooms （ red tide ） ” are working effectively. This was seen in the water quality indicators associated with particulate organic matter. In contrast, the amount of dissolved organic matter has not decreased. The reduction of nutrients has resulted in a rise in the C: N ratio of organic matter, caused by the constancy of the organic carbon concentration and the decrease in organic nitrogen concentration. A discrepancy between COD and TOC trends has also occurred. It was common to Tokyo Bay and Ise Bay that COD has not decreased because nutrient reduction induces a change in the quality of organic matter.

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营养物减量对海岸带有机物(COD和TOC)的影响:减量效应及其工作机制

由于全国海域营养物减少，总氮(TN)和总磷(TP)水质达标率分别达到96%和95%。然而，近30年来，化学需氧量(COD)标准的达标率几乎没有变化。在大阪湾调查了这一差异的原因，发现了以下情况。“减少总氮抑制高浓度浮游植物华(赤潮)的发生”等富营养化措施正在有效发挥作用。这在与有机颗粒物相关的水质指标中可见一斑。相比之下，溶解有机物的数量并没有减少。营养物质的减少导致有机质C: N比值的上升，这是由于有机碳浓度的恒定和有机氮浓度的降低造成的。COD和TOC的变化趋势也存在差异。东京湾和伊势湾的共同点是，由于营养物减少导致有机物质的变化，COD没有下降。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Japan Society on Water Environment

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