농약(農藥)이 토양환경중(土壤環境中)의 생화학적(生化學的)인 변화과정중(變化過程中) 효소활성(酵素活性)에 미치는 영향(影響)을 구명(究明)하기 위하여 토양내(土壤內)에 요소시비(尿素施肥)의 유무(有無)에 따라 유황(硫黃)이 함유(含有)된 살균제(殺菌劑), 살충제(殺蟲劑), 제초제(除草劑)를 처리(處理)하였을 때 토양내(土壤內)의 arylsulfatase의 활성(活性)에 미치는 영향(影響)을 조사(調査)한 결과(結果)는 다음과 같다. 요소(尿素)를 첨가(添加)하지 않은 토양(土壤)과 첨가(添加)한 토양(土壤) 모두 배양(培養) 7일(日)째 arylsulfatase의 활성(活性)이 가장 높았고 배양기간(培養期間)이 경과함에 따라 점차(漸次) 낮아져 배양(培養) 42일(日)째는 처음 수준(水準)으로 되었으며 요소(尿素)를 첨가(添加)한 토양(土壤)에서는 요소(尿素)를 첨가(添加)하지 않은 토양(土壤)보다 전반적(全般的)으로 다소 높은 효소활성(酵素活性)을 나타내었다. 살균제(殺菌劑)인 captan, edifenphos, 살충제(殺蟲劑)인 acephate, 제초제(除草劑)인 asulam, bentazone 처리구(處理區)에서는 배양(培養) 7일(日)째 arylsulfatase의 활성(活性)이 가장 높았으나 배양초기(培養初期)부터 배양(培養) 42일(日)까지 전반적(全般的)으로 효소활성(酵素活性)을 저해(沮害)하는 경향(傾向)을 나타내었으며 요소(尿素)를 첨가(添加)한 토양(土壤)에서도 같은 경향(傾向)을 보였다. 살충제(殺蟲劑) EPN을 처리(處理)하였을때는 요소(尿素)를 첨가(添加)한 토양(土壤)이나 첨가(添加)하지 않은 토양(土壤) 모두 배양초기(培養初期)에는 활성(活性)이 저해(沮害)되었으나 배양후기(培養後期)에는 오히려 활성(活性)이 촉진(促進)되었다.

This study analyzed the changes in the concentrations of organic matters in constructed treatment wetlands, coming from discharge water from a sewage treatment plant and non-point pollutant sources during rainfall events. At the beginning of a rainfall event, a massive amount of particulate organic matter flowed in, and was removed from the sedimentation basin (S1, S2); dissolved organic matter was removed after passing through stepwise treatment processes in the wetland. During dry period in the wetland, the removal efficiency rate for COD and TOC was -21 and -7%, respectively; during the rainfall event, the removal efficiency rate for COD and TOC were 47 and 43%, respectively. The highly-concentrated organic matters that flowd in at the beginning of the rainfall event was stabilized by various structures in the wetland before water discharge. Cyanobacteria blooms annually at the confluence of the So-ok stream and Daecheong Lake. Therefore, it is expected that the wetland will contribute significantly to reducing cyanobacteria and improving water quality in the area.

This study investigated water quality of effluents and stream from the sewage treatment plants located at Gumi Complex 4, Gumi, and Wonpyeong in Gumi. Downstream region was found to increase the concentration of nutrients for sewage treatment plant effluent. Both phosphorus and nitrogen were accounted most as soluble form. In particular, the high ratio of dissolved effluent of sewage treatment plants were investigated. In the streams, Phosphorus concentration was high during rainy season and nitrogen concentration was high in the dry season. Sewage treatment plant effluent was relatively less microbial activity and nutrient concentrations were higher in the winter. TN/TP ratio was the highest in the upstream region and the lowest in the sewage treatment plant effluent. The effect of the nutrient matter from a discharge of a sewage treatment plant on rivers varied depending on the size of the river and the treatment plant. However, the influence of the concentration was greater than that of flowrate. Sewage treatment plant effluent loads phosphorus, nitrogen accounted for 8% and 6% respectively at the point N3 of the Nakdong river.