한국패류학회지 (The Korean Journal of Malacology)

한국패류학회 (The Malacological Society of Korea)
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안정만 패류양식해역의 표층퇴적물의 지화학적특성과 중금속 함량

Physiochemical Characteristics and Heavy Metal in the Surface Sediments of Marine Shellfish Farming Waters in Anjung Bay, Korea

  • 정우건 (경상대학교 해양생명과학과) ;
  • 조상만 (군산대학교 해양생명과학과) ;
  • 이상준 (경상대학교 해양생명과학과)
  • Jeong, Woo-Geon (Department of Marine biology and Aquaculture, Gyeongsang National University) ;
  • Cho, Sang-Man (Department of Aquaculture and Aquatic Science, Kunsan National University) ;
  • Lee, Sang-Jun (Department of Marine biology and Aquaculture, Gyeongsang National University)
  • 투고 : 2014.12.09
  • 심사 : 2014.12.24
  • 발행 : 2014.12.31
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초록

굴양식이 성행하는 안정만 해역은 인근 연안에 LNG비축기지, 조선소 등의 공단이 가동되고 있어 일부 양식장은 품종을 전환하고 있다. 이 연구는 안정만 해역의 연안생태계에 영향을 미치는 저질환경 특성을 조사하기 위하여 2009년부터 2010년까지 2회에 걸쳐 20개 정점의 표층퇴적물을 채집, 분석하였다. 안정만 해역의 표층퇴적물의 IL은 6.41-11.68% (평균 $9.52{\pm}1.28%$)의 범위였고, COD는 17.99-43.84 mg/g (평균 $27.53{\pm}6.39mg/g$), 그리고 AVS는 0.05-0.61 mg/g (평균 $0.17{\pm}0.14mg/g$)의 범위였다. 유기물함량은 저질의 수분함량과 밀접한 상관관계가 있었고, 이는 양식품종의 분포 패턴과도 관계가 있어 흰멍게로 양식품종이 변화된 북부해역의 COD가 비교적 높게 나타났다. 일부 조사정점을 제외하고 대부분의 중금속함량은 NOAA의 ERL 기준치 이하였고, 중금속 부화지수는 0.96-1.12의 범위로 중금속 오염에서는 비교적 청정한 것으로 판단되지만, 증가하는 선박 통행량을 고려할 때, 지속적인 저질환경 모니터링이 요구된다.

Total 20 surface sediments were collected in Anjung bay to investigate the physicochemical environment and heavy metal contents. The physicochemical investigation ranged from 6.41% to 11.68% (average $9.52{\pm}1.28%$) for ignition loss (IL), from 17.99 mg/g to 43.84 mg/g (average $27.53{\pm}6.39mg/g$) for chemical oxygen demand (COD), and from 0.05 mg/g to 0.61 mg/g (average $0.17{\pm}0.14mg/g$) for acid volatile sulfide (AVS) with significant correlation between water content (W/C) and COD. A contour of spatial distribution indicated higher organic pollution at the bottom of ascidian, Stylea clava, cultural waters. Most of metals contents was not exceeded the NOAA's effect range-low (ERL). Estimated enrichment factor (EF) ranging 0.96-1.12 indicated that the sediment environment of the studied waters was relatively pristine from heavy metal pollution in spite of increased vessel traffics, so far.

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참고문헌

  1. Buchman, M.F. (2008) NOAA Quick Screening Reference Tables. NOAA OR&R Report 08-1 Seattle WA, Office of Response and Restoration Division, National Atmospheric and Oceanic Administration: 34p.
  2. Cho, C.H., Kim, Y.S., Youm, M.G., Choi, J.D., Jeong, W.G. and Choi, W.J. (1996) Evaluation of environmental capacity for shellfish farms in Puk Bay. Gyeongsangnam-do, College of Fisheries GSNU, Tongyeong, 309 pp.
  3. Cho, Y.G., Lee, C.B., and Choi, M.S. (1994) Characteristics of heavy metal distribution in surface sediments from the South sea of Korea. The Sea, 29(4): 338-356.
  4. Cho, Y.S., Lee, W.C., Kim, J.B., Hong, S.J., Kim, H.C., and Kim, C.S. (2013) Establishment of environmental assessment using sediment total organic carbon and macrobenthic polychaete community in shellfish farms. Journal of the Korean Society of Marine Environment & Safety, 19(5): 430-438. https://doi.org/10.7837/kosomes.2013.19.5.430
  5. Choi, M., Kim, H.C., Hwang, D.W., Lee, I.S., Kim, Y.S., Kim, Y.J., and Choi, H.G. (2013) Organic enrichment and pollution in surface sediments from shellfish farming in Yeoja Bay and Gangjin Bay, Korea. Fisheries and Aquatic Science, 46(4): 424-436. https://doi.org/10.5657/KFAS.2013.0424
  6. Hong, S.H., Shim, W.J., Lee, S.H., Lee, I.S. (2001). Distribution of orgnotin compounds in sediments, seawater and oysters (Crassostrea gigas) in Okpo Bay. Korean Journal of Ecology, 24(1): 19-26.
  7. Jeong, W.G., and Cho, S.M. (2003) The physiochemical characteristics of seawater and sediment of marine shellfish farm in Jindong Bay. Korean Journal of Malacology, 19(2): 161-169.
  8. Jung C.H., Park, H.J., Chung, I.H., and Na, C.K. (2007). Pollution property of heavy metal in Goseong Cu mine Area, Kyungsangnam-do, Korea. Economic and Environmental Geology, 40(4): 347-360.
  9. Kahang, S.H., Je, J.G., Oh, J.R., Shim, W.J., Shim, J.H. (1996) Imposex of Thais clavigera and T. luteostoma (Muricidae) as an Evidence of Orgnotin pollution in Chinhae Bay. Korean Journal of Malcology, 12(2): 123-131.
  10. Kang, J.H., Lee, S.J., Jeong, W.G., and Cho, S.M. (2012) Geochemical characteristics and heavy metal pollutions in the surface sediments of oyster farms in Goseong Bay, Korea. Korean Journal of Malacology, 28(3): 233-244. https://doi.org/10.9710/kjm.2012.28.3.233
  11. Kim, D.H., Kim, I.G., Um, H.H. (2011) Contents of trace metals in sediment of shipbuilding and steel industrial sea area. Proceedings of KOSOMES biannual meeting 2011, 11: 263-266.
  12. Kim, K.S. (2013) The current state of pollution of heavy metals in offshore sediments around shipyards of Korea. Proceedings of KOSOMES biannual meeting 2013. 11: 329-331.
  13. Kim, P.J., Shon, S.G., Park, S.Y., Kim, S.S., Jang, S.J., Jeon, S.B., and Ju, J.S. (2012) Biogeochemistry of Metal and Nonmetal elements in the Surface Sediment of the Gamak Bay. Journal of the Korean Society of Marine Environment & Safety, 18(2): 67-83. https://doi.org/10.7837/kosomes.2012.18.2.067
  14. Kim, Y.S., and Moon, T.S. (1998) Filtering rate with effect of water temperature and size of two farming ascidians Styela clava and S. plicata, and a farming mussel Mytilus edulis. Journal of Korean Fisheries Society, 31(2): 272-277.
  15. Lee, J.I., Park, S.H., Kim, M.S., Oh, Y.H., Yu, I.S., Choi, B.H., Lee, G.C., Kim, M.S., Jang, S.Y., and Lee, C.H. (2009) Surveillance of Acute Gastroenteritis in Seoul, Korea, During May 2004 and June 2007. Journal of Bacteriology and Virology, 39(4): 363-371. https://doi.org/10.4167/jbv.2009.39.4.363
  16. Luoma, S.N. (1990) Processes affecting metal concentrations in estuarines and coastal marine sediments. In: Heavy Metals in the Marine Environment (ed. by Furness R.W. and Rainbow, P.S.). pp. 51-66. CRC Press, Boca Raton.
  17. Martin, J.M. and Meybeck, M. (1979) Elemental mass-balance of material carried by major world rivers. Marine Chemistry, 7:173-206. https://doi.org/10.1016/0304-4203(79)90039-2
  18. Ministry of Land, Transport and Marine Affairs (2010) Standard methods of marine environment in Korea. Seoul, 461pp.
  19. Park, J.H., Moon, T.S., Kim, Y.S., Kang, S.J., Park, A.J., Choi, H.S., Kim, P.K., Choi, W.J., Park, Y.C., Na, G.H., Yoo, H.D., Cha, J.G., Yang, M.J., Ha, I.G., and Park, H.S. (1997) Studies on the development of aquaculture technology for ascidians, Styela clava Herdman. NFRDI, Kwachon, 198 pp.
  20. Ra, K., Kim, E.S., Kim, K.T., Kim, J.K., and Lee, J.M. (2012) Assesment of heavy metal contamination in the surface sediments along the coast of Korea. Proceeding for The Korean Society for Marine Environment Engineering :301-308.
  21. Simmons, G., Garbutt, C., Hewitt, J., and Greening, G. (2007) A New Zealand outbreak of norovirus gastroenteritis linked to the consumption of imported raw Korean oysters. The Newzealand Medical Journal, 120: U2773.
  22. Webby, R.J., Carville, K.S., Kirk, M.D., Greening, G., Ratcliff, R.M., Crerar, S.K., Dempsey, K., Sarna, M., Stafford, R., Patel, M., and Hall, G. (2007) Internationally distributed frozen oyster meat causing multiple outbreaks of norovirus infection in Australia. Clinical Infectious Diseases, 44:1026-1031. https://doi.org/10.1086/512807

피인용 문헌

  1. Heavy Metal Contents and Food Safety Assessment of Processed Seaweeds and Cultured Lavers vol.19, pp.3, 2016, https://doi.org/10.7846/JKOSMEE.2016.19.3.203
  2. 국내 주요 국가산업단지에서 중금속에 의한 토양오염 vol.34, pp.2, 2014, https://doi.org/10.5338/kjea.2015.34.2.19