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연안개발사업 환경영향평가 영향예측 결과에 근거한 해양생태계 조사정점 선정방안에 관한 연구

A Study on Determinations of Survey Station in Marine Ecosystems Based by Impact Prediction of Environment Impact Assessment in Coastal Development Projects

  • 조범준 (한국환경정책.평가연구원) ;
  • 맹준호 (한국환경정책.평가연구원)
  • 투고 : 2012.07.27
  • 심사 : 2012.09.13
  • 발행 : 2012.10.31

초록

In case of executing surveys in marine ecosystems, the most important things are scientific selection measures of survey stations that can represent various ecosystems characteristics in subjected areas. The situations show a lot of differences that understand characteristics of marine ecosystems in targeted areas according to selection methods and positions in survey stations. Investigation ranges and station numbers in marine ecosystems are classified according to project characteristics and scales. But, currently a clear divisions or objective standards are not. Therefore, this study tried to provide selection measures of survey station in scientific and objective marine ecosystems through precise analysis among environmental impact statements of coastal development projects until now. In this study, impact scopes of marine ecosystems correspond to physical impact predictions by undertaking projects. Impact ranges were divided into three(physical impact ranges) coastal waters. In case of proposing numbers of survey stations according to this survey ranges, numbers of investigation stations due to minimum survey scopes in targeted projects applied 20~30% of all numbers in survey stations. Number of survey stations due to average investigation scopes within physical impact ranges applied 60~70% of all numbers in investigation stations. Numbers of survey stations due to maximum survey ranges within physical impact scopes applied 10~20% of all numbers in survey stations. So, improvement measures were deducted. Finally, according to prediction ranges in impact of various coastal development projects, several kinds of conclusions are suggested. And, it is thought to be able to use as fundamental database to select investigation stations in marine organisms through this study.

키워드

참고문헌

  1. 국토해양부, 2009, 해역이용영향평가서 작성 등에 관한 규정, 국토해양부 고시 제2009-792호, 2009.8.24 일부개정.
  2. 노영재, 2007, 원자력발전소 온배수 피해액 산정을 위한 영향지수 시안, 한국해양학회지, 제12권 제1호, pp.35-42.
  3. 맹준호, 조범준, 2010, 해안개발사업 환경영향평가 영향예측 결과에 근거한 해양동.식물상 조사정점 선정방안, KEI Working Paper 2010-11.
  4. 유재원, 김창수, 정회인, 이용우, 이만우, 이창근, 진승주, 맹준호, 홍재상, 2011. 지식기반적 방법을 활용한 저서생태계 평가의 유효 조사 정점 개수 산정, The Sea, Journal of the Korean Society of Oceanography, 16(3), 147-154.
  5. 조홍연, 조범준, 김상준, 2008. 계절별 염분자료를 이용한 아산만 연안의 담수 영향범위 추정. 한국해안.해양공학회논문집, 20(2), 219-231.
  6. 환경부, 2007, 사업유형별 환경영향평가서 작성지침(안) 개발연구. 공통지침 해설서.
  7. 환경부, 2009, 고사.훈령.예규 등 환경영향평가 관련 규정집
  8. 환경부, 2009, 사업유형별 평가서 작성을 위한" 환경영향평가서 작성 가이드라인. 55-58
  9. Frey, R.W., J.D. Howard, S.J. Han and B.K. Park, 1989. Sediment and sedimentary sequences on a modern macrotidal flat, Inchon, Korea. J. Sed. Petrol., 59, 28-44.
  10. Kottegoda, N.T. and Rosso, R. 1997, Probabiltiy, Statistics and Reliability for Civil and Environmental Engineers, McGraw-Hill. 262-267.
  11. Omori, M., Ikeda, T., 1984, Methods in Marine Zooplankton Ecology, xiii, 332, John Wiley.
  12. United Nations Environment Programme, 2002, Environmental Impact Assessment Training Resource Manual. 560-571.
  13. Yoo, J.W., 1998. The spatial distribution and long-term variation of macrofaunal communities on macrotidal flats in the West Central Coast of Korea. Ph.D. thesis, Inha Univ., 352.