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정장표,차건봉,김좌관 慶星大學校 環境問題硏究所 1993 環境硏報 Vol.3 No.1
The purpose of this study is to find out characteristics of nonpoint source-pollutant loads For this, in the aspect of water guality Change during storm days, the relationship between Stream flow and pollutant mass loads was studied. Also the contributions of loading rates from nonpoint sources were calculated. In this study, the drainage area of Sooyeong river, upstream of the Hoedong reservoir, was investigated. The reservoir used for drinking water source in Pusan, is located in a rural area and few point sources in its drainage area. The results of this study were as follows. Changes in water quality during rainfall showed that parameters such as COD, PO₄-P, T-P, NH₄-N concentration increased about two times, on the other hand, NO₂-N, NO₃-N concentration decreased to about two third of the concentrations in drying periods. The regression equations for stream flow versus pollutant loads were obtained as follows: COD : LOG(M)=-4.531+1.396×LOG(Q) r²=0.768 NH4-N : LOG(M)=-3.227+0.948×LOG(Q) r²=0.825 NO2-N : LOG(M)=-5.744+1.216×LOG(Q) r²=0.641 T-P : LOG(M)=-8.303+1.804×LOG(Q) r²=0.811 PO4-P : LOG(M)=-7.726+1.660×LOG(Q) r²=0.820 The rate of pollutant contributions from nonpoint sources was 80.4% for COD, 75.8% for NH₄-N, 53% for NO₂-N, 57.3% for NO₃-N. 85% for T-P, 89% for PO₄-P, and that of phosphorous pollutant was higher than that of inorganic pollutants. The loading rates of nonpoint pollutants were calculated as 3.76kg/ha/d(COD), 0.2kg/ha/day(NH₄-N), 0.076kg/ha/d(T-P), 0.037kg/ha/d(PO₄-P), respectively. Results above mentioned showed that the pollutant contributions from nonpoint sources were not negligible and the control and management of nonpoint source were urgently needed.