This study was conducted to investigate the effect of shellfish farming on benthic community structure. The characteristics of benthic environment and macrobenthic community were studied at 13 oyster farms in three bays (Gamak, Goseong and Jaran Bay). Sediment samples were collected at the center and edge of each farm and control stations, considering the distance from the facilities. Acid Volatile Sulfide (AVS), Total Organic Carbon (TOC), number of species and macrofaunal density were slightly higher in center stations and decreased with distance from the farms, indicating that shellfish farming had a possibility of making some changes in benthic ecosystem at least directly under the facilities. The dominant species were polychaete Lumbrineris longifolia and Aphelochaeta monilaris, bivalve Theora fragilis and amphipod Sinocorophium sinensis in most of the stations. Especially, Capitella capitata appeared more prominently in some center stations. However, for benthic health index, there were no great differences among stations, which implied that impact of shellfish farming was not so significant as to deteriorate ecological quality of benthic ecosystem.
Baudinet, D., Alliot, E., Berland, B., Grenz, C., Plante-Cuny, M., Plante, R. and Salen-Picard, C. (1990) Incidence of mussel culture on biogeochemical fluxes at the sediment-water interface. Hydrobiologia, 207: 187-196.
Braaten, B., Aure, J., Ervik, A. and Boge, E. (1983)Pollution problems in Norwegian fish farming. ICES C.M. 1983/F, 26: 1-11.
Buschmann, A.H., Lopez, D.A. and Medina, A. (1996) A review of environmental effects and alternative production strategies of marine aquaculture in Chile. Aquacultural Engineering, 15: 397-421.
Callier, M.D., McKindsey, C.W. and Desrosiers, G. (2007)Multi-scale spatial variations in benthic sediment. Marine Ecology Progress Series, 348: 103-115.
Callier, M.D., McKindsey, C.W. and Desrosiers, G. (2008)Evaluation of indicators used to detect mussel farm influence on the benthos: Two case studies in the Magdalen Islands, Eastern Canada. Aquaculture, 278:77-88.
Callier, M.D., Weise, A.M., McKindsey, C.W. and Desrosiers, G. (2006) Sedimentation rates in a suspended mussel farm (Great-Entry Lagoon, Canada): biodeposit production and dispersion. Marine Ecologyl Progress Series, 322: 129-141.
Chamberlain, J., Fernandes, T.F., Read, P., Nickell, T.D. and Davies, I.M. (2001) Impacts of biodeposits from suspended mussel (Mytilus edulis L.) culture on the surrounding surficial sediments. ICES J. Mar. Sci., 58: 411-416.
Cho, C.H. (1991) Mariculture and eutrophication in Jinhae Bay, Korea. Marine Pollution Bulletin, 23:275-279.
Cho, C.H. and Kim, Y.S. (1977) Microenvironment in oyster farm area 1. On the eutrophication and raft density in Geoje bay. Bull. Korean Fish. soc., 10(4), 259-265. [in Korean].
Cho, C.H. and Park, K.Y. (1983) Eutrophication of bottom mud in shellfish farms, the Goseong-Jaran bay. Bull. Korean Fish. Soc., 16(3): 260-264. [in Korean].
Choi, C. (2005) A study on the sustainable marine fish aquaculture based on responsible aquaculture management. Pukyoung National University. [in Korean]
Choi, J.W., Seo, J.Y., Lee, C.H., Ryu, T.K., Sung, C.G., Han, G.M. and Hyun, S.M. (2005) Spatial distribution patterns of macrobenthic communities during winter and summer in the Masan Bay Special Management Area, southern coast of Korea. Ocean and Polar Research, 27: 381-395. [in Korean].
Choi, J.W., Yu, O.H. and Lee, W.J. (2003) The summer spatial distributional pattern of macrobenthic fauna in Gwangyang bay, southern coast of Korea. Journal of the Korean Society of Oceanography, 8(1): 14-28. [in Korean].
Christensen, P.B., Clud, R.N., Dalsgaard, T. and Gillespie, P. (2003) Imacts of longline mussel farming on oxygen and nitrogen dynamics and biological communities of coastal sediments. Aquaculture, 218: 567-588.
Christensen, P.B., Rysgaard, S., Sloth, N.P., Dalsgaard, T. and Schwærter, S. (2000) Sediment mineralization, nutrient fluxes, denitrification and dissimilatory reduction to ammonium in an estuarine fjord with sea cage trout farms. Aquatic Microbial Ecology, 21:73-84.
Clarke, K.R. and Warwick, R.M. (2001) Change in marine communities: an approach to statistical analysis and interpretation, 2nd edition. pp. 171, PRIMER-E, Plymouth, UK.
Clarke, K.R., Somerfield, P.J. and Gorley, R.N. (2008). Testing of null hypotheses in exploratory community analyses: similarity profiles and biota-environment linkage. J. Exp. Mar. Biol. Ecol., 366: 56-69.
Clynick, B.G., McKindsey, C.W. and Archambault, P. (2008) Distribution and productivity of fish and macroinvertebrates in mussel aquaculture sites in the Magdalen islands (Quebec, Canada). Aquaculture, 283: 203-210.
Cranford, P.J., Strain, P.M., Dowd, M., Hargrave, B.T., Grant, J. and Archambault, M.C. (2007) Influence of mussel aquaculture on nitrogen dynamics in a nutrient enriched coastal embayment. Marine Ecology Progress Series, 347: 61-78.
Crawford, C.M., Macleod, C.K.A. and Mitchell, I.M. (2003) Effects of shellfish farming on the benthic environment. Aquaculture, 224: 117-140.
D’Amours, O., Archambault, P., McKindsey, C.W. and Johnson, L.E. (2008) Local enhancement of epibenthic macrofauna by aquaculture activities. Marine Ecology Progress Series, 371: 73-84.
Gifford, S., Dunstan, H., O’Connor, W. and Macfarlane, G.R. (2005) Quantification of in situ nutrient and heavy metal remediation by a small pearl oyster (Pinctada imbricata) farm at Port Stephens, Australia. Marine Pollution Bulletin, 50: 417-422.
Giles, H., Pilditch, C.A. and Bell, D.G. (2006)Sedimentation from mussel (Perna canaliculus)culture in the Firth of Thames, New Zealand:impacts on sediment oxygen and nutrient fluxes. Aquaculture, 261: 125-140.
Gowen, R.J. and Bradbury, N.B. (1987) The ecological impact of salmonid farming in coastal waters: a review. Oceanography Marine Biology Annual Review, 25: 563-533.
Gowen, R.J., Rosenthal, H., Makinen, T. and Ezzi, I. (1990) Environmental impact of aquaculture. In:Aquaculture Europe 89: Business joins Sciences, edited by de Pauw N. and R. Billard, European Aquaculture Society, Special Publication No. 12, Bredene, Belgium.
Haamer, J. (1996) Improving water quality in a eutrophied Fjord system with mussel farming. Ambio, 25: 356-362.
Hall, P.O.J., Anderson, L.G., Holby, O., Kollberg, S. and Samuelson, M.O. (1990) Chemical fluxes and mass balances in a marine fish cage farm. Ⅰ. Carbon. Marine Ecology Progress Series, 61: 61-73.
Hall, P.O.J., Holby, O., Kollberg S. and Samuelson, M.O. (1992) Chemical fluxes and mass balances in a marine fish cage farm. IV. Nitrogen. Marine Ecology Progress Series, 89: 81-91.
Hartstein, N.D. and Rowden, A.A. (2004) Effect of biodeposits from mussel culture on macroinvertebrate assemblages at sites of different hydrodynamic regime. Marine Environmental Research, 57: 339-357.
Holby, O. and Hall, P.O.J. (1991) Chemical fluxes and mass balances in a marine fish cage farm. II. Phosphorus. Marine Ecology Progress Series, 70:263-272.
Holby, O. and Hall, P.O.J. (1994) Chemical fluxes and mass balances in a marine fish cage farm. III. Silicon. Aquaculture, 120: 305-318.
Holmer, M. and Kristensen, E. (1992) Impact of marine fish cage farming on metabolism and sulfate reduction of underlying sediments. Marine Ecology Progress Series, 80: 191-201.
Hong, J.S., Jung, R.H., Seo, I.S., Yoon, K.T., Choi, B.M. and Yoo, J.W. (1997) How are the spatio-temporal distribution patterns of benthic macrofaunal communities affected by the construction of Shihwa dike in the west coast of Korea? J. Korean Fish. Soc., 30(5): 882-895. [in Korean].
Hyun, J.H., Kim, S.H., Mok, J.S., Lee, J.S., An, S.U., Lee, W.C. and Jung, R.H. (2013) Impacts of long-line aquaculture of Pacific oyster (Crassostrea gigas) on sulfate reduction and diffusive nutrient flux in the coastal sediments of Jinhae-Tongyeong, Korea. Marine Pollution Bulletin, 74(1): 187-198.
Imabatashi, H. and Tsukuda, S. (1984) A Population ecology of the small bivalve Theora Iubrica in Northern Bongo-nada. Bull. Jpn. Soc. Sci. Fish, 50:1855-1862.
Inglis, G.J. and Gust, N. (2003) Potential indirect effects of shellfish culture on the reproductive success of benthic predators. J. Appl. Ecol., 40: 1077-1089.
Jung, J. and Kim, W. (2007) New record of Sinocorophium sinensis (Crustacea: Amphipoda:Corophiidae) in Korea. Korean Journal of systematic zoology, 23(2): 241-245.
Jung, R.H., Lim, H.S., Kim, S.S., Park, J.S., Jeon, K.A., Lee, Y.S., Lee, J.S., Kim, K.Y. and Go, W.J. (2002)A study of the macrozoobenthos at the intensive fish farming grounds in the southern coast of Korea. Journal of the Korean Society of Oceanography, 7(4):235-246. [in Korean].
Kim, B., Choi, A, An, S., Kim, H.C., Jung, R.H., Lee, W.C. and Hyun, J.H. (2011) Rates of sulfate reduction and iron reduction in the sediment associated with abalone aquaculture in the southern coastal waters of Korea. Ocean and Polar Research, 33(4): 435-445. [in Korean].
Koo, B.J., Je, J.G. and Shin, S.H. (2004). Benthic pollution assessment based on macrobenthic community structure in Gamak Bay, southern coast of Korea. Ocean and Polar Reserch, 26: 11-22.
Lim, H.S., Park, H.S., Choi, J.W. and Je, J.G. (1999)Macrobenthic community of the subtidal soft bottom of Aenggang Bay in the southern coast of Korea. Journal of the Korean Society of Oceanography, 4:80-92. [in Korean].
Lee, J.H.W., Wu, R.S.S. and Cheung, Y.K. (1991)Forecasting of dissolved oxygen in marine fish culture zone. Journal of Environmental Engineering ASCE, 117(12): 816-833.
Mattsson, J. and Linden, O. (1983) Benthic macrofauna succession under mussels, Mytilus edulis L. (Bivalvia), cultured on hanging long-lines. Sarsia, 68:97-102.
Metzger, E., Simonucci, C., Viollier, E., Sarazin, G., Prevot, F. and Jezequel, D. (2007) Benthic response to shellfish farming in Thau lagoon: pore water signature. Estuar. Coast Shelf Sci., 72: 406-419.
Ministry of Oceans and Fisheries (2010) The Korean Standard Methods ofr Marine Environment.
Miron, G., Landry, T., Archambault, P. and Bruno, F. (2005) Effects of mussel culture husbandry practices on various benthic characteristics. Aquaculture, 250:138-154.
Mirto, S., Rosa, R.L., DanoVaro, R. and Mazzola, A. (2000) Microbial and meiofaunal response to intensive usselfarm biodeposition in the coastal sediments of the Western Mediterranean. Marine Pollution Bulletin, 40: 244-252.
Neofitou, N., Charizopo, N., Vafidis, D., Skordas, K., Tziantziou, L. and Neofitou, C. (2014) Mussel farming impacts on trophic status and benthic Mediterranean). Aquaculture INT, 22: 843-857.
Park, H.S. and Lee, S.K. (2002) Assessment of benthic environment conditions of oyster and mussel farms based on macrobenthos in Jinhae bay. Jounal of the Korean Society of Marine Environment & Energy, 5(1): 68-75. [in Korean].
Park, H.S., Choi, J.W. and Lee, H.G. (2000) Community structure of macrobenthic fauna under marine fish culture cages near Tong-young, southern coast of Korea. J. Korean Fish. Soc., 33(1): 1-8. [in Korean].
Park, S., Lee, J., Choi, J.W., Heo, N. and An, S. (2016)Study on the Long-term changes in water quality and benthic ecology and evaluation on effect of the barrage in Nakdong river estuary. Journal of wetlands research, 18(1): 58-67. [in Korean].
Pearson, T.H. and Black, K.D. (2001) The environmental impacts of marine fish cage culture. In:Environmental Impacts of Aquaculture. (edited by Black, K.D.). pp. 1-31, Sheffield Academic Press, Sheffield.
Pearson, T.H. and Rosenberg, R. (1978) Macrobenthic succession in relation to organic enrichment and pollution of the marine environment. Oceanography and Marine Biology An Annual Review, 16: 229-311.
Poor, G.C.B. and Kudenov, J.D. (1978) Benthos of the port of melbourne : The yarra river and jobsons bay, victoria. Marine and Freshwater Research, 29(2):141-155.
Reynolds, F.A. and Haines, T.A. (1980) Effects of chronic exposure to hydrogen sulphide on newly hatched brown trout Salmo trutta L.. Environmental Pollution, 22: 11-17.
Robert, P., Mckindsey, C.W., Chaillou, G. and Archambault, P. (2013) Dose-dependent response of a benthic system to biodeposition from suspended blue mussel (Mytilus edulis) culture. Marine Pollution Bulletin, 66: 92-104.
Rosa, T.L., Mirto, S., Favaloro, E., Savona, B., Sara, G., Danovaro, R. and Mazzola, A. (2002) Impact on the water column biogeochemistry of a Mediterranean mussel and fish farm. Water Research, 36: 713-721.
Ross, A. (1989) Marine fish farming-Scotland’s pride or problem? Ecos, 10(3): 8-12.
Sara, G., Scilipoti, D., Milazzo, M. and Modica, A. (2006)Use of stable isotopes to investigate dispersal of waste from fish farms as a function of hydrodynamics. Marine Ecology Progress Series, 313: 261-270.
Seo, J.Y., Park, S.H., Lee, J.H. and Choi, J.W. (2012)Structural changes in macrozoobenthic communities due to summer hypoxia in Gamak Bay, Korea. Ocean Science Journal, 47(1): 27-40.
Shannon, C.E. and Weaver, W. (1963). The mathematical theory of communications. pp. 125, University of Illinois Press, Urbana.
Shumway, S.E., Davis, C., Downey, R., Karney, R., Kraeuter, J., Parsons, J., Rheault, R. and Wikfors, G. (2003) Shellfish aquaculture-in praise of sustainable economies and environments. World Aquac., 34: 8-10.
Shin, H.C., Choi, S.S. and Koh, C.H. (1992). Seasonal and spatial variation of Polychaetous community in Youngil Bay, Southeastern Korea. Journal of the Korean society of Oceanography, 27(1): 46-54. [in Korean].
Song, X., Huang, L., Zhang, J., Huang, X., Zhang, J., Yin, J., Tan, Y. and Liu, S. (2004) Variation of phytoplankton biomass and primary production in Daya Bay during spring and summer. Marine Pollution Bulletin, 49: 1036-1044.
Tsutsumi, H., Kikuchi, T., Tanaka, M., Higashi, T., Imasaka, K. and Miyazaki, M. (1991) Benthic faunal succession in a cove organically polluted by fish farming. Marine Pollution Bulletin, 23: 233-238.
Tucker, C.S. and Hargreaves, J.A. (2008) Environmental best management practices for aquaculture. Blackwell Publishing, Ames.
Yoon, S.P., Jung R.H., Kim, Y.J., Kim, S.S., Lee, J.S., Park, J.S., Lee, W.C. and Choi W.J. (2007)Characteristics of benthic environment and polychaete communities of Gamak bay, Korea. Journal of the Korean Society of Oceanography, 12(4): 287-304. [in Korean].
Yoon, S.P., Jung, R.H., Kim, Y.J., Hong, S.J., Oh, H.T. and Lee, W.C. (2009) Spatio-temporal changes in macrobenthic community structure and benthic environment at an intensive oyster culturing ground in Geoje-Hansan bay, Korea. Journal of the Korean society of Oceanography, 14(4): 213-228. [in Korean].
Zhang, J., Hansen, P.K., Fang, J.G., Wang, W. and Jiang Z. (2009). Assessment of the local environmental impact of intensive marine shellfish and seaweed farming-Application of the MOM system in the Sungo Bay, China. Aquaculture, 287: 304-310.
국립수산과학원. (2013) 어장환경평가 조사 및 지침 수립. 국립수산과학원 SP-2014-ME038.
국립수산과학원. (2014) 어장환경평가의 방법 및 절차 등에 관한규정. 국립수산과학원 고시 제 2014-08호.
통계청 국가통계포털. (2015) (www.kosis.kr). 어업생산동향조사