Korean Journal of Ecology and Environment (생태와환경)

The Korean Society of Limnology (한국수생태학회)
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Effects of Turbid Water on Fish Ecology in Streams and Dam Reservoirs

  • Seo, Jin-Won (Korea Institute of Water and Environment, Korea Water Resources Corporation) ;
  • Lee, Jong-Eun (Department of Biological Science, Andong National University)
  • Published : 2008.12.31
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Abstract

Turbid water or suspended sediment is associated with negative effects on aquatic organisms; fish, aquatic invertebrate, and periphyton. Effects of turbid water on fish differ depending on their developmental stage and a level of turbidity. Low turbid water may cause feeding and predation rates, reaction distance, and avoidance in fish, and it could make fish to die under high turbidity and long period. Therefore, it is very important to find out how turbid water or suspended sediment can affect fish in domestic watersheds. The objectives of this study were 1) to introduce international case studies and their standards to deal with suspended sediment, 2) to determine acute toxicity in 4 major freshwater fishes, and 3) to determine in relation to adverse effect of macroinvertebrates and fish. Impacts of turbid water on fish can be categorized into direct and indirect effects, and some factors such as duration and frequency of exposure, toxicity, temperature, life stage of fish, size of particle, time of occurrence, availability of and access to refugia, etc, play important role to decide magnitude of effect. A review of turbidity standard in USA, Canada, and Europe indicated that each standard varied with natural condition, and Alaska allowed liberal increase of turbidity over natural conditions in streams. Even though acute toxicity with four different species did not show any fatal effect, it should be considered to conduct a chronic test (long-term) for more detailed assessment. Compared to the control, dominance index of macroinvertebrates was greater in the turbid site, whereas biotic index, species diversity index, species richness index, and ecological score were smaller in the turbid site. According to histopathological analysis with gills of macroinvertebrate and fishes, morphological and physiological modification of gills due to suspended sediments can cause disturbance of respiration, excretion and secretion. In conclusion, in order to maintain good and healthy aquatic ecosystem, it is the best to minimize or prevent impact by occurrence of turbid water in stream and reservoir. We must make every effort to maintain and manage healthy aquatic ecosystem with additional investigation using various assessment tools and periodic biomonitoring of fish.

Keywords

References

  1. Alabaster, J.S. and R. Lloyd. 1982. Finely divided solids. Pages 1-20 in Water quality criteria for freshwater fish, J.S. Alabaster and R. Lloyd editors, 2nd edition, Butterworth, London
  2. American Petroleum Institute (API). 1980. Guide to water quality standards of the United States. API, Environmental Affairs Department, Publication 4321, Washington, D.C
  3. Bash, J., C. Berman and S. Bolton. 2001. Effects of turbidity and suspended solids on Salmonids. Center for Streamside Studies, Univ. of Washington, Seattle, Washington
  4. Berkman, H.E. and C.F. Rabeni. 1987. Effect of siltation on stream fish communities. Environ. Biol. Fishes 18: 285-294 https://doi.org/10.1007/BF00004881
  5. Boyd, C.E. and C.S. Tucker. 1998. Pond Aquaculture Water Quality Management. Kluwer Academic Publisher, Massachusetts
  6. Brown, G.W. 1972. Forestry and Water Quality. Corvallis, OR: Oregon State University Press
  7. Cairns, J. 1990. Disturbed ecosystems as opportunities for research in restoration ecology. Pages 307- 320 in Restoration Ecology: A Synthetic Approach to Ecological Research. W.R. Jordan, M.E. Gipin and J.D. Abers Eds. Cambridge: Cambridge University Press
  8. Clark, E.H. 1985. The off-site costs of soil erosion. J. Soil Water Conserv. 40: 19-22
  9. European Inland Fisheries Advisory Commission (EIFAC). 1965. Working Party on Water Quality Criteria for European Freshwater Fish. Water quality criteria for European freshwater fish. Report on finely divided solids and inland fisheries (EIFAC Technical Paper No. 1). Air and Water Pollution 9: 151-168
  10. Fairchild, J.F., T. Boyle, W.R. English and C. Rabeni. 1987. Effects of sediment and contaminated sediment on structural and functional components of experimental stream ecosystems. Water, Air, and Soil Pollution 36: 271-293 https://doi.org/10.1007/BF00229673
  11. Gammon, J.R. 1970. The effect of inorganic sediment on stream biota. U.S. Environmental Protection Agency, Water Pollution Control Research Series 18050 DWC 12/70. U.S. Government Printing Office, Washington, D.C
  12. Henley, W.F, M.A. Patterson, R.J. Neves and A.D. Lemly. 2000. Effects of sedimentation and turbidity on lotic food webs: a concise review for natural resource managers. Reviews in Fisheries Science 8: 125-139 https://doi.org/10.1080/10641260091129198
  13. Herbert, D.W.M. and J.C. Merkens. 1961. The effect of suspended mineral solids on the survival of trout. Int. J. Air Water Pollut. 5: 46-55
  14. Hoetzel, G. and R. Croome. 1994. Long-term phytoplankton monitoring of the Darling River at Burtundy, New South Wales: incidence and significance of cyanobacterial blooms. Aust. J. Mar. Freshwater Res. 45: 747-759 https://doi.org/10.1071/MF9940747
  15. Judy, R.D. Jr., P.N. Seeley, T.M. Murray, S.C. Svirsky, M.R. Whitworth and L.S. Ischinger. 1984. 1982 national fisheries survey. Volume I. Technical report: initial findings. Report No. FWS/OBS- 84/06, Washington, D.C.: U.S. Fish and Wildlife Service
  16. Kirk, J.T.O. 1985. Effects of suspensoids (turbidity) on penetration of solar radiation in aquatic ecosystems. Hydrobiologia 125: 195-208 https://doi.org/10.1007/BF00045935
  17. KOWACO. 1994. Report for the origin investigation of turbidity increase in Imha Reservoir. Imha Dam Office
  18. Lee, S., J. Kim, J. Noh and I.H. Ko. 2007. Assessment of selective withdrawal facility in the Imha Reservoir using CE-QUAL-W2 model. Journal of Korean Society on Water Quality 23: 228-235
  19. Lloyd, D.S. 1987. Turbidity as a water quality standard for Salmonid habitats in Alaska. North American Journal of Fisheries Management 7: 34-45 https://doi.org/10.1577/1548-8659(1987)7<34:TAAWQS>2.0.CO;2
  20. Lloyd, D.S., J.P. Koenings and J.D. LaPerriere. 1987. Effects of turbidity in fresh waters of Alaska. North American Journal of Fisheries Management 7: 18-33 https://doi.org/10.1577/1548-8659(1987)7<18:EOTIFW>2.0.CO;2
  21. Margalef, R. 1958. Information theory. Ecology 7: 36-71
  22. McCabe, G.D. and W.J. O'Brian. 1983. The effects of suspended silt on the feeding and reproduction of Daphnia pulex. American Midland Naturalist 110: 324-337 https://doi.org/10.2307/2425273
  23. McNaughton, S.J. 1967. Relationship among functional properties of California Grassland. Nature 216: 168-169
  24. Newcomb, T.W. and T.A. Flagg. 1983. Some effects of Mt. St. Helens volcanic ash on juvenile salmon smolts. Marine Fisheries Review 45: 8-12
  25. Newcombe, C.P. and J.O.T. Jensen. 1996. Channel suspended sediment and fisheries: a synthesis for quantitative assessment of risk and impact. North American Journal of Fisheries Management 16: 693-727 https://doi.org/10.1577/1548-8675(1996)016<0693:CSSAFA>2.3.CO;2
  26. Newcombe, C.P. and D.D. MacDonald. 1991. Effects of suspended sediments on aquatic ecosystems. North American Journal of Fisheries Management 11: 72-82 https://doi.org/10.1577/1548-8675(1991)011<0072:EOSSOA>2.3.CO;2
  27. Noggle, C.C. 1978. Behavioral, physiological and lethal effects of suspended sediment on juvenile salmonids. Master's thesis. University of Washington, Seattle, Washington
  28. Organization for Economic Co-operation and Development (OECD). 1998. Guideline for testing of chemicals: fish, short-term toxicity test on embryo and sac-fry stages. OECD 212. Paris
  29. Pielou, E.C. 1969. An Introduction to Mathematical Ecology. Wiley - Interscience, New York
  30. Pimentel, D., C. Harvey, P. Resosudarmo, K. Sinclair, D. Kurz, M. McNair, S. Crist, L. Shpritz, L. Fitton, R. Saffouri and R. Blair. 1995. Environmental and economic costs of soil erosion and conservation benefits. Science 267: 1117-1123 https://doi.org/10.1126/science.267.5201.1117
  31. Reed, J.P., J.M. Miller, D.F. Pence and B. Schaich. 1983. The effects of low level turbidity on fish and their habitat. Report No. 190., Dept. of Zoology, North Carolina State University, Raleigh, North Carolina
  32. Reid, L.M. 1998. Forest roads, chronic turbidity, and salmon. EOS, Transactions American Geophysical Union 79: F285
  33. Richter, B.D., D.P. Braun, M.A. Mendelson and L.L. Master. 1997. Threats to imperiled freshwater fauna. Cons. Biol. 11: 1081-1093 https://doi.org/10.1046/j.1523-1739.1997.96236.x
  34. Rosenberg, D.M. and N.B. Snow. 1977. A design for environmental impact studies with special reference to sedimentation in aquatic systems of the Mackenzie and Porcupine River drainages. Pages 65-78 in Proceedings of the Circumpolar Conference on Northern Ecology. National Research Council, Ottawa
  35. Rosenberg, D.M. and A.P. Wiens. 1978. Effects of sedimentation on macrobenthic invertebrates in a northern Canadian river. Water Research 12: 753-763 https://doi.org/10.1016/0043-1354(78)90024-6
  36. Ryan, P.A. 1991. Environmental effects of sediment on New Zealand streams: a review. New Zeal. J. Mar. Freshwat. Res. 25: 207-221 https://doi.org/10.1080/00288330.1991.9516472
  37. Sigler, J.W., T.C. Bjornn and F.H. Everest. 1984. Effects of chronic turbidity on density and growth of steelheads and coho salmon. Transactions of the American Fisheries Society 113: 142-150 https://doi.org/10.1577/1548-8659(1984)113<142:EOCTOD>2.0.CO;2
  38. Steinman, A.D. and C.D. McIntire. 1990. Recovery of lotic periphyton communities after disturbance. Environ. Manage. 14: 598-604
  39. U.S. Environmental Protection Agency (USEPA). 1983. Turbidity. Pages 180.1.1-1.4 in Methods for chemical analysis of water and waste. USEPA. Office of Research and Development, EPA-600/4-79-020, Cincinnati, Ohio
  40. U.S. Environmental Protection Agency (USEPA). 2002. Methods for measuring the acute toxicity of effluents and receiving waters to freshwater and marine organisms. 5th edition. EPA-821-R-02-012, Washington, D.C
  41. Wagener, S.M. and J.D. LaPerriere. 1985. Effects of placer mining on the invertebrate communities of interior Alaska streams. Freshwater Invertebrates Biology 4: 208-214 https://doi.org/10.2307/1467163
  42. Yeom, D.H., J. Seo and S.K. Lee. 2005. Use of Chinese bleak, Aphyocypris chinensis, in embryo and sac-fry stages toxicity test. J. Environ. Toxicol. 20: 359-363
  43. Yi, H-S, J. Kim and S.U. Lee. 2008. Development of turbid water prediction model for the Imha Dam watershed using HSPF. Journal of Korean Society of Environment Engineering 30: 760-767