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NTIS 바로가기海洋環境安全學會誌 = Journal of the Korean society of marine environment & safety, v.20 no.2 = no.61, 2014년, pp.143 - 156
김영태 (국립수산과학원 해역이용영향평가센터) , 김귀영 (국립수산과학원 해역이용영향평가센터) , 전경암 (국립수산과학원 해역이용영향평가센터) , 엄기혁 (국립수산과학원 해역이용영향평가센터) , 김인철 (국립수산과학원 해역이용영향평가센터) , 최보람 (국립수산과학원 해역이용영향평가센터) , 김희정 (국립수산과학원 해역이용영향평가센터) , 김진민 (국립수산과학원 해역이용영향평가센터)
We reviewed investigation status on turbidity plume in the statement of marine environmental survey(2008 to 2012) associated with marine sand extraction projects. The survey statement from seven marine sand extraction sites (extraction area of Southern EEZ, extraction area of Western EEZ, relocation...
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핵심어 | 질문 | 논문에서 추출한 답변 |
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바다모래 채취로 인해 야기된 현상은 무엇인가? | 우리나라의 산업화 및 도시화가 본격적으로 진행된 지난 수 십 여년동안, 연안 개발과 해안 정비 등의 사업이 전국적으로 추진되고 있는 상황에서, 연근해에서의 지속적이고 과도한 바다모래 채취로 인해 야기된 것으로 추정되는 여러 현상들이 보고되고 있다. 예컨대 해저 지형 구조의 변형(Kim et al., 2005; Kum et al., 2010), 퇴적상 변화로 인한 저서생물 군집 교란 및 생태계의 건강성 저하(Min, 2004; Yu et al., 2006; Son and Han, 2007), 유용 수산자원 감소(Cho and Chang, 2003), 연안 침식(KMI, 2006;Choi et al., 2012) 등의 현상은 이미 빈번하게 보고되고 있는 피해 사례들이며, 해양 수질에 대한 영향에 대해서도 연구가 진행된 바 있다(Yang et al., 2008). | |
바다모래의 사용처는 무엇인가? | 이와 같이 연·근해역에서 채취한 모래는 국내 수요량의 약 23 % 이상을 충당하고 있는 것으로 알려져 있다 (MOLIT, 2013). 바다모래는 해변 양빈, 토목·건설 사업의 골재용 등으로, 그리고 85 % 이상의 이산화규소(SiO₂ )를 함유 하는 규사(硅砂)는 유리, 실리콘, 그리고 연마사(硏磨砂) 제조용으로 각각 활용되고 있다(Choi, 2002; Choi et al., 2013). | |
규사의 사용처는 무엇인가? | 이와 같이 연·근해역에서 채취한 모래는 국내 수요량의 약 23 % 이상을 충당하고 있는 것으로 알려져 있다 (MOLIT, 2013). 바다모래는 해변 양빈, 토목·건설 사업의 골재용 등으로, 그리고 85 % 이상의 이산화규소(SiO₂ )를 함유 하는 규사(硅砂)는 유리, 실리콘, 그리고 연마사(硏磨砂) 제조용으로 각각 활용되고 있다(Choi, 2002; Choi et al., 2013). |
Auld, A. H. and J. R. Schubel(1978), Effects of suspended sediment on fish eggs and larvae: A laboratory assessment, Estuarine and Coastal Marine Science, Vol. 6, pp. 153-164.
Brockmann, U. H., R. W. P. M. Laane and H. Postma(1990), Cycling of nutrient elements in the North Sea, Netherlands Journal of Sea Research, Vol. 26, No. 2-4, pp. 239-264.
Bryant, V., D. M. Newbery, D. S. McLusky and R. Campbell(1985), Effect of temperature and salinity on the toxicity of nickel and zinc to two estuarine invertebrates (Corophium volutator, Macoma balthica), Marine Ecology Progress Series, Vol. 24, pp. 139-153.
Burd, B. J., P. A. G. Barnes, C. A. Wright and R. E. Thomson(2008), A review of subtidal benthic habitats and invertebrate biota of the Strait of Georgia, British Columbia, Marine Environmental Research, Vol. 66, pp. S8-S38.
Cho, D. H. and H. B. Chang(2003), The Demand-Supply Situation and Management Plan for Marine Sand, Report of KMI (Korea Maritime Institute), pp. 40-92.
Cho, D. O.(2006), Challenges to sustainable development of marine sand in Korea. Ocean & Coastal Management. Vol. 49, pp. 1-21.
Choi, J. H., J. Y. Choi and Y. K. Cho(2012), Study on erosion cause analysis and implication, Journal of Korean National Committee on Irrigation and Drainage, Vol. 19, No. 1, pp. 3-18.
Choi, J. H., J. Y. Choi and Y. K. Cho(2013) The coast and suitability of beach nourishment was evaluated sand of Ongjingun, Taeangun, and E.E.Z, used for the beach nourishment, Journal of Korean National Committee on Irrigation and Drainage, Vol. 20, No. 1, pp. 45-58.
Choi, J. S.(2002), Actual Conditions of Marine Sand Extraction and the Future Policy Direction, Report of KMI (Korea Maritime Institute), p. 3.
Conley, D. J.(2000), Biogeochemical nutrient cycles and nutrient management strategies, Hydrobiologia, Vol. 410, pp. 87-96.
Cooper, K. M.(2013), Setting limits for a acceptable change in sediment particle size composition: Testing a new approach to managing marine aggregate dredging, Marine Pollution Bulletin, Vol. 73, pp. 86-97.
Dong, L. X., W. B. Guan, Q. Chen, X. H. Li, X. H. Liu and X. M. Zeng(2011), Sediment transport in the Yellow Sea and East China Sea. Estuarine, Coastal and Shelf Science, Vol. 93, pp. 248-258.
Durrieu de Madron, X., B. Ferre, G. Le Corre, C. Grenz, P. Conan, M. Pujo-Pay, R. Buscail and O. Bodiot(2005), Trawling-induced resuspension and disposal of muddy sediments and dissolved elements in the Gulf of Lion (NW Mediterranean), Continental Shelf Research, Vol. 25, pp. 2387-2409.
Eggleton, J. and K. V. Thomas(2004), A review of factors affecting the release and bioavailability of contaminants during sediment disturbance events, Environment International, Vol. 30, pp. 973-980.
Elliott, M. and V. N. de Jonge(2002), The management of nutrients and potential eutrophication in estuaries and other restricted water bodies, Hydrobiologia, Vol. 475/476, pp. 513-524.
Erftemeijer, P. L. A. and R. R. R. Lewis III (2006), Environmental impacts of dredging on seagrasses: A Review, Marine Pollution Bulletin, Vol. 52, pp. 1553-1572.
Fisher, N. S., I. Stupakoff, S. Sanudo-Wilhelmy, W. X. Xang, J. L. Teyssie, S. W. Fowler and J. Crusius(2000), Trace metals in marine copepods: a field test of a bioaccumulation model coupled to laboratory uptake kinetics data, Marine Ecology Progress Series, Vol. 194, pp. 211-218.
Giblin, A. E., C. S. Hopkinson and J. Tucker(1997), Benthic metabolism and nutrient cycling in Boston Harbor, Massachusetts. Estuaries, Vol. 20, No. 2, pp. 346-364.
Groot, S. J. de(1980), The consequences of marine gravel extraction on the spawning of herring, Culpea harengus L., Journal of Fish Biology, Vol. 16, pp. 605-611.
Han, M. W. and Y. C. Park(1992), Submarine environmental characteristics of porewater around Deok-jeok island, Yellow Sea, Journal of the Korean Environmental Sciences Society, Vol. 1, No. 1, pp. 77-88.
Hendozko, E., P. Szefer and J. Warzocha(2010), Heavy metals in Macoma balthica and extractable metals in sediments from the southern Baltic Sea, Ecotoxicology and Environmental Safety, Vol. 73, pp. 152-163.
Herrmann, C., J. C. Krause, N. Tsoupikova and K. Hansen(1999), Marine sediment extraction in the Baltic Sea: Status report. Helsinki Commission (Baltic marine environmental protection commission). Baltic Sea environment proceedings, No. 76, pp. 11-23.
Huang, J., X. Ge and D. Wang(2012), Distribution of heavy metals in the water column, suspended particulate matters and the sediment under hydrodynamic conditions using an annular flume, Journal of Environmental Sciences, Vol. 24, No. 12, pp. 2051-2059.
ICES(2003), International Council for the Exploration of the Sea, ICES Guidelines for the management of marine sediment extraction. In Report of the ICES Advisory Committee on the Marine Environment. ICES Co-operative Research Report 263, pp. 210-215.
Islam, M. S. and M. Tanaka(2004), Impacts of pollution on coastal and marine ecosystems including coastal and marine fisheries and approach for management: a review and synthesis, Marine Pollution Bulletin, Vol. 48, pp. 624-649.
Justic, D., N. N. Rabalais and R. E. Turner(1995), Stoichimetric nutrient balance and origin of coastal eutrophication, Marine Pollution Bulletin, Vol. 30, No. 1, pp. 41-46.
Kim, B. O., S. H. Lee and J. S. Yang(2005) Bathymetric change of a sand mining site within EEZ, West Sea of Korea, Journal of Korean Earth Science Society, Vol. 26, No. 8, pp. 836-843.
Kim, C. S. and H. S. Lim(2009), Sediment dispersal and deposition due to sand mining in the coastal waters of Korea, Continental Shelf Research, Vol. 29, pp. 194-204.
Kim, T. H., H. J. Oh and Y. H. Youn(2004), Comparison on local wind waves in Gyeonggi Bay, Journal of the Korean Meteorological Society, Vol. 40, No, 4, pp. 485-495.
Kim, T. G.(2009), Efficient management of marine resources in conflict: An empirical study of marine sand mining, Korea. Journal of Environmental Management, Vol. 91, pp. 78-86.
Kim, T. G. and T. Grigalunas(2009), Simulating direct and indirect damages to commercial fisheries from marine sand mining: A case study in Korea, Environmental Management, Vol. 44, pp. 566-578.
KMI(2005), Korea Maritime Institute, Estimates of the Economic Cost to Commercial Fisheries in Ongjin, Korea because of Marine Sand Mining, pp. 149-170.
KMI(2006), Korea Maritime Institute, Estimates of the Economic Cost to Coastal Erosion due to Marine Sand Extraction, pp. 20-26.
Kutser, T., L. Metsamaa and E. Vahtmae and R. Aps(2007), Operative monitoring of the extent of dredging plumes in coastal ecosystems using MODIS satellite imagery, Journal of Coastal Research, Vol. 50, pp. 180-184.
Laane, R. W. P. M., A. D. Vethaak, J. Gandrass, K. Vorkamp, A. Kohler, M. M. Larsen and J. Strand(2013). Chemical contaminants in the Wadden Sea: Sources, transport, fate and effects, Journal of Sea Research, Vol. 82. pp. 10-53.
Lee, D. I., K. H. Eom, K. A. Jeon and G. Y. Kim(2010a), Scoping for environmental impact and system improvement of marine sand mining in Korea, Journal of Environmental Impact Assessment. Vol. 19, No. 3, pp. 335-345.
Lee, D. I., D. S. Park, K. H. Eom and G. Y. Kim(2010b), Status of marine sand mining and assessment system in Korea, Journal of Environmental Impact Assessment, Vol. 19, No. 3, pp. 357-365.
Lee, J. S. and B. G. Lee(2005), Relationship between clearance rates and metal uptake rates of Corbicula fluminea, Potamocorbula amurensis, Macoma balthica: Influence of water temperature and body size, Korean Journal of Malacology, Vol. 21, No. 1, pp. 41-46.
Liu, S. M., J. Zhang, S. Z. Chen, H. T. Chen, G. H. Hong, H. Wei and Q. M. Wu(2003), Inventory of nutrient compounds in the Yellow Sea, Continental Shelf Research, Vol. 23, pp. 1161-1174.
Maeng, J. H and B. J. Cho(2010), A study on determinations of survey station in marine fauna and flora based by impact prediction of environment impact assessment in coastal development projects, Report of KEI (Korea Environment Institute), pp. 25-37.
Min, G. O.(2004), Impacts of sand mining activity on the marine environment and fishery resources in Kyeonggi Bay, Korea, Master's thesis, Inha University, p. 3.
Ministry of Land, Transport and Maritime Affairs(2009), Study for Environment-friendly Management Plan of Marine Sand Extraction Areas. Final Report, pp. 26-41.
Ministry of Land, Transport and Maritime Affairs(2012), Guidelines for Practitioners on the System of Sea Area Utilization Consultations, pp. 131-315.
MOLIT(2013), Ministry of Land, Infrastructure and Transport, Statistical information, Available from: https://stat.molit.go.kr/ portal/search/searchList.do/.
Nayar, S., B. P. L. Goh and L. M. Chou(2004), Environmental impact of heavy metals from dredged and resuspended sediments on phytoplankton and bacteria assessed in in situ mesocosms, Ecotoxicology and Environmental Safety, Vol. 59, pp. 349-369.
Newell, R. C., L. J. Seiderer and D. R. Hitchcock(1998), The impact of dredging works in coastal waters: A review of the sensitivity to disturbance and subsequent recovery of biological resources on the sea bed, Oceanography and Marine Biology: An Annual Review, Vol. 36, pp. 127-178.
NFRDI(2010), National Fisheries Research Development Institute, Report of Korean Coastal and Offshore Fishery Census, Fisheries Information Portal, Available from:http://portal.nfrdi.re.kr/upload/all/all_2010_09.pdf/.
ODPM(The Office of the Deputy Prime Minister)(2002), Marine Mineral Guidance 1: Extraction by dredging from the English seabed, Available from: www.communities.gov.uk.
OSPAR Commission(2009), Summary assessment of sand and gravel extraction in the OSPAR maritime area, pp. 1-12.
Pakhomova, S. V., P. O. J. Hall, M. Y. Konoets, A. G. Rozanov, A. Tengberg and A. V. Vershinin(2007), Fluxes of iron and manganese across the sediment-water interface under various redox conditions. Marine Chemistry, Vol. 107, pp. 319-331.
Robinson, J. E., R. C. Newell, L. J. Seiderer and N. M. Simpson(2005), Impacts of aggregate dredging on sediment composition and associated benthic fauna at an offshore dredge site in the southern North Sea, Marine Environmental Research, Vol. 60, pp. 51-68.
Smayda, T. J.(1990), Novel and nuisance phytoplankton blooms in the sea: Evidence for global epidemic, In Toxic Marine Phytoplankton (Graneli, E., B. Sundstrom, R. Edler and D. M. Anderson, eds), Elsevier, New York, pp. 29-40.
Stathan, P. J.(2012), Nutrients in estuaries - An overview and the potential impacts of climate change, Science of the Total Environment, Vol. 434, pp. 213-227.
Tillim, H. M., A. J. Houghton, J. E. Saunders, R. Drabble and S. C. Hull(2011), Direct and indirect impacts of aggregate dredging, Marine Aggregate Levy Sustainability Fund, Science Monograph Series: No. 1, pp. 1-41.
Tramontano, J. M. and W. F. Bohlen(1984), The nutrient and trace metal geochemistry of a dredge plume. Estuarine, Coastal and Shelf Science, Vol. 18, pp. 385-401.
Turner, A. and G. E. Millward(2002), Suspended particles: Their role in estuarine biogeochemical cycles. Estuarine, Coastal and Shelf Science, Vol. 55, pp. 857-883.
Van der Oost, R., J. Beyer and N. P. E. Vermeulen(2003), Fish bioaccumulation and biomarkers in environmental risk assessment: a review, Environmental Toxicology and Pharmacology, Vol. 13. pp. 57-149.
Vethaak, A. D. and T. A. Rheinallt(1992). Fish disease as a monitor for marine pollution: the case of the North Sea. Reviews in Fish Biology and Fisheries, Vol. 2, pp. 1-32.
Vethaak, A. D., J. G. Jol, A. Meijboom, M. L. Eggens, T. A. Rheinallt, P. W. Wester, T. van de Zande, A. Bergman, N. Dankers, F. Arriese, R. A. Baan, J. M. Everts, A. Opperhuizen and J. M. Marquenie(1996), Skin and liver diseases induced in flounder (Platichthys flesus) after long-term exposure to contaminated in large-scale mesocosms, Environmental Health Perspectives, Vol. 104, No. 11, pp. 1218-1229.
Wang, B., G. Yu, J. Huang, T. Wang and H. Hu(2011), Probabilistic ecological risk assessment of DDTs in the Bohai Bay based on a food web bioaccumulation model, Science of the Total Environment. Vol. 409, pp. 495-502.
Wang, W. X. and R. C. H. Dei(1999), Factors affecting trace element uptake in the black mussel Septifier virgatus, Marine Ecology Progress Series, Vol. 186, pp. 161-172.
Ware, S. and A. Kenny(2011), Guidelines for the Conduct of Benthic Studies at Marine Aggregate Extraction Sites. 2nd Edition, Marine Aggregate Levy Sustainability Fund, pp. 1-76.
Wu, J., J. T. Liu and X. Wang(2012), Sediment trapping of turbidity maxima in the Changjiang Estuary, Marine Geology, Vol. 303-306, pp. 14-25.
Yang, J. S., Y. H. Jeong and K. H. Ji(2008), Changes in the sensitive chemical parameters of the seawater in EEZ, Yellow Sea during and after the sand mining operation, Journal of the Korean Society of Oceanography, Vol. 13, No. 1, pp. 1-14.
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