Journal of Environmental Science International (한국환경과학회지)

The Korean Environmental Sciences Society (한국환경과학회)
권호 표지
DOI QR코드

DOI QR Code

Contribution of Non-Point Pollution to Water Quality and Runoff Characteristics from Agricultural Area of the Upstream Watersheds of Lake Chinyang

  • Lee, Chun-Sik (Department of Environmental Engineering Gyeongnam National University of Science and Technology) ;
  • Jang, Seong-Ho (Department of Bioenviromental Energy, Pusan National University)
  • Received : 2012.12.13
  • Accepted : 2013.03.19
  • Published : 2013.03.29
Download PDF
⟨ Previous Next ⟩

Abstract

In this study, non-point source(NPS) contribution was investigated based on flow rates and water qualities of streams into the lake during rainfall events. Event mean concentration(EMC) and the pollution loads were calculated to establish a database for NPS control measurement in the survey area, and so on. The runoff characteristics of NPS were investigated and estimated on the basis of the ratio of an agricultural to forest area in the stream of sub-catch basin during rainfall events. Non-point source pollution loads were also calculated to establish a database for NPS control measure in the upstream lake Chinyang. At a rainfall event, BOD concentrations rise sharply at the early peak time of runoff, however, peaks of TSS concentration were observed at the similar time of peak flow. This was a phenomenon shown at the watersheds caused by forest and geological types. The discharged EMC range was 2.9-4.8 mg/L in terms of BOD. The discharged EMC range was 6.2-8.2 mg/L in terms of SS. The discharged EMCs of T-N and T-P were 1.4-2.5 mg/L and 0.059-0.233 mg/L, respectively. Total BOD loading rate through the 3 tributaries to the lake Chinyang was 1,136 kg/d during dry weather. The upper watershed area of the Nam-river dam in this study was divided into 14 catchment basins based on the Korean guideline for total maximum daily load(TMDL) of water quality pollutants. The higher the agricultural land-use ratio, the more NPS loading rate discharged, but the more occupied a forest area, the lower more NPS loading rate discharged. In an agricultural land-use area more than 20%, the increase of NPS loadings might be dramatically diffused by increasing the integrated complex-use like vinyl-house facilities and fertilizer use etc. according to the effective land-use utilization. The NPS loading rates were BOD 0.3 $kg/ha{\cdot}day$, SS 0.21 $kg/ha{\cdot}day$, TN 0.02 $kg/ha{\cdot}day$, TP 0.005 $kg/ha{\cdot}day$ under less than 10% agricultural land-use. In agricultural land-use of 20%-50%, these values were investigated in the range of 0.32 $kg/ha{\cdot}day$-0.73 $kg/ha{\cdot}day$ for BOD, 0.92 $kg/ha{\cdot}day$-3.32 $kg/ha{\cdot}day$ for SS, 0.70 $kg/ha{\cdot}day$-0.90 $kg/ha{\cdot}day$ TN, 0.03 $kg/ha{\cdot}day$-0.044 $kg/ha{\cdot}day$ for TP.

Keywords

References

  1. Gentry, L. E., David, M. B., Royer, T. V., Mitchell, A., Starks, K. M., 2007, Phosphorus transport pathways to streams in tile-drained agricultural watersheds, J. Environ. Qual., 36, 408-415. https://doi.org/10.2134/jeq2006.0098
  2. Kim, J. S., Oh, Y. S., Oh, Y. K., 2006, Nutrient runoff from a Korean rice paddy watershed during multiple storm events in the growing season, J. Hydrol., 327(1-2), 128-139 https://doi.org/10.1016/j.jhydrol.2005.11.062
  3. Kim, S. S., 2002, NPS loadings discharged by land-use at Kyungan stream, NIER, Korea.
  4. Loehr, R. C., 1974, Characteristics and comparative magnitude of non-point sources, Journal of Water poll. Control Fed., 46(8), 1849-1872
  5. Nak-dong river Committee, 2006, The cause analysis report for excessive Algae propagation at Chingyang Lake.
  6. Nam-river Dam Management Group., 2005-2008, Fundamental Survey Report for Nam-river Dam Watershed Areas, KOWACO.
  7. Park, S. C., 2005, NPS loadings from an Agricultural area in Sumjin River region, NIER, Korea.