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Characteristics of Pollutant Loads and Water Quality in Kwangyang Bay, Korea

  • Lee Dae-In (Department of Environmental Engineering, Pukyong National University) ;
  • Park Chung-Kil (Department of Environmental Engineering, Pukyong National University) ;
  • Cho Hyeon-Seo (Division of Ocean System, Yosu National University)
  • Published : 2003.09.01

Abstract

The characteristics of pollutant loads from the various sources and seawater quality in Kwangyang Bay were evaluated. Total flow rate was estimated to be $10,868,066.8 m^3/day$ with a flow rate of R2l (the Seomjin River) as the highest one. Total COD, TN and TP loads of the input rivers and the ditches were about 27,591.8, 25,029.6 and 586.4 kg/day, respectively. Wastewater discharging loads was the greatest contributors to pollutant loads in the inner part of Kwangyang Bay. COD values in the inner part of the bay was over 3.0 mg/L, which exceeded the seawater quality criteria III of Korea. The average values of DIN and DIP were 8.62 ${\mu}gN/L\;and\;1.26\;{\mu}gP/L$, respectively. The limiting factor for algal growth was DIN. In he total discharging loads of the watershed from unit loading estimations, BOD, TN and TP were 9,132.3, 2,727.2 and 304.2 kg/day, respectively. In addition, municipal sewage by the population as pollution sources and the city of Kwangyang as administrative district had the highest loads. For a appropriate water quality recovery of Kwangyang Bay, it is suggested that it is essential to estimate reduction rate of total pollutant loads by water quality modeling.

Keywords

References

  1. APHA AW WA WEF. 1995. Standard Methods for the Examiiation of Water and Wastewater. 19th ed. Washington, D.C., American Public Health Associa-tion, pp. 2/46-5/20
  2. Burroughs, R.H. 1993. Non-point sources as external threats to coastal water quality: lessons from park service experience. Coast. Manage., 21, 131-142 https://doi.org/10.1080/08920759309362197
  3. Cho, Y.G., C.B. Lee and C.H. Koh. 2000. Heavy metals in surface sediments from Kwangyang Bay, south coast of Korea. J. Kor. Soc. Oceanogr., 5, 131-140
  4. Chua, T.E. 1999. Marine pollution prevention and management in the East Asian Seas: A paradigm shift in concept, approach and methodology. Mar. Poll. Bull., 39, 80-88 https://doi.org/10.1016/S0025-326X(99)00085-5
  5. Ellis, J.B. 1989. The management and control of urban runoff quality. J. lnst. Wat. Environ. Manage., 3, 116-124 https://doi.org/10.1111/j.1747-6593.1989.tb01499.x
  6. lchiki, A. and K. Yamada. 1999. Study on characteristics of pollutant runoff into Lake Biwa, Japan. Wat. Sci. Tech., 39, 17-25
  7. JFRCA (Japan Fisheries Resource Conservation Association). 1972. Water quality criteria of fisheries environment. JFRCA, Japan, 1-24
  8. Jarvie, H.P., C. Neal and A.D. Tappin. 1997. European land-based pollutant loads to the North Sea: an analysis of the Paris Commission data and review of monitoring strategies. Sci. Total Environ., 194, 39-58 https://doi.org/10.1016/S0048-9697(96)05352-1
  9. Koo, J.K., Y.R. Kim, RB. Mun and W.B. Lee. 1993. The estimation of unit COD discharge rate from non-point source by the BOX Model in Kwangyang Bay Basin. J. Kor. Soc. Wat. Qual., 9, 122-130
  10. Lee, D.l. and C.K. Park. 2002. The modelling of winter water quality in the estuary of the Nakdong river. J. Kor. Soc. Wat. Qual., 18, 449-460
  11. Lee, D.l., C.K. Park and H.S. Cho. 2001. Water quality management of Kwangyang Bay by point pollution source control. J. Kor. Soc. Mar. Environ. Eng., 4, 28-39
  12. Lee, D.I. and H.S. Cho. 2002. A study on the characteristics of pollutant loads in Kamak Bay watershed. J. Environ. Sci., 11, 945-954 (in Korean)
  13. Lee, S.H. and W.S. Cho. 2001. A study about the influence of pollutant load on water quality in a small stream watershed. Kor. Soc. Environ. Impact Assess., 10, 9-19
  14. MOE (Ministry of Environment). 1999. Founding guide of total pollutant loads control (Notification No 143). MOE, Seoul, Korea, 86 pp
  15. MMAF (Ministry of Marine Affairs and Fisheries). 1998. Standard methods of marine environment. MMAF, Seoul, Korea, 5-58
  16. MMAF (Ministry of Marine Affairs and Fisheries). 2001. Establishment of action plans for coastal environmental management areas. MMAF, Seoul, Korea, 496 pp
  17. MMAF (Ministry of Marine Affairs and Fisheries). 2002. Establishment of action plans for coastal environmental management areas. Seoul, Korea, 658 pp
  18. NFRDI (National Fisheries Research and Development Institute). 1997. Recent red tides in Korean costal waters. NFRDI, Busan, Korea, 280 pp
  19. Redfield, A.C., B.H. Ketchum and F.A. Richards. 1963. The influence of organisms on the composition of seawater. In: The Sea, Vol. 2, M.R Hill, ed. Wiley, New York, pp. 26-77
  20. Shim, J.H., Y.K. Shin and W.H. Lee. 1984. On the phytoplankton distribution in the Kwangyang Bay. J. Kor. Soc. Oceanogr., 19, 172-186
  21. USEPA (United States Environmental Protection Agency). 1997. Technical guidance manual for developing total maximum daily loads, Book 2: Streams and rivers, Part 1: Biochemical oxygen demand/Dissolved oxy-gen and Nutrients/Eutrophication. EPA 823-B-97-002, USEPA, Office of Water, Washington, DC
  22. Wilkinson, W.B., G.J.L. Leeks, A. Morris and D.E. Walling. 1997. Rivers and coastal research in the land ocean interaction study. Sci. Total Environ., 194, 5-14 https://doi.org/10.1016/S0048-9697(96)05350-8

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