Browse > Article

Development of Bivalve Culture Management System based on GIS for Oyster Aquaculture in GeojeHansan Bay  

Cho, Yoon-Sik (Division of Environmental Research, National Fisheries Research & Development Institute)
Hong, Sok-Jin (Division of Environmental Research, National Fisheries Research & Development Institute)
Kim, Hyung-Chul (Division of Environmental Research, National Fisheries Research & Development Institute)
Choi, Woo-Jeung (Division of Environmental Research, National Fisheries Research & Development Institute)
Lee, Won-Chan (Division of Environmental Research, National Fisheries Research & Development Institute)
Lee, Suk-Mo (Ecological Engineering, Pukyung National University)
Publication Information
Journal of the Korean Society of Marine Environment & Safety / v.16, no.1, 2010 , pp. 11-20 More about this Journal
Abstract
Oyster production is playing an important role in domestic aquaculture, but facing some problems such as exports decrease, a slowdown in domestic demand and marine environmental deterioration. In order to obtain the suitable and sustainable oyster production, suitable sites selection is an important step in oyster aquaculture. This study was conducted to identify the suitable sites for lunging culture of oyster using Geographic Information System(GIS)-based multi-criteria evaluation methods. Most of the parameters were extracted by Inverse Distance Weighted(IDW) methods in GIS and eight parameters were grouped into two basic sub-models for oyster aquaculture, namely oyster growth sub-model(Sea Temperature, Salinity, Hydrodynamics, Chlorophyll-a) and environment sub-model(Bottom DO, TOC, Sediment AVS, Benthic Diversity). Suitability scores were ranked on a scale from 1(leased suitable) and 8(most suitable), and about 80.1% of the total potential area had the highest scores 5 and 6. These areas were shown to have the optimum condition for oyster culture in GeojeHansan Bay. This method to identify suitable sites for oyster culture may be used to develop bivalve culture management system for supporting a decision making.
Keywords
Suitable site selection; GIS; Sustainable oyster production; Bivalve culture management system; Oyster aquaculture;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Buitrago, J., M. Rada, H. Hernandez and E. Buitrago(2005), A single-use site selection technique, using GIS, for aquaculture planning: choosing locations for mangrove oyster raft culture in Margarita Island, Venezuela. Environ. Manage. Vol. 35, pp. 544-556.   DOI   ScienceOn
2 Perez, O. M., T. C. Telfer, M. C. M. Beveridge and L. G. Ross(2002), Geographical Information Systems(GIS) as a simple tool to aid modelling of particulate waste distribution at marine fish cage sites, Estuar. Coast. Shelf Sci, Vol. 54, pp. 761-768.   DOI   ScienceOn
3 국립수산과학원(2008), 어장환경실태조사, pp. 3-6.
4 김성희, 정병호, 김재경(2002), 의사결정분석 및 응용, 영지문화사, p. 488.
5 Pilditch, C. A. and J. Grant(1999), Effect of variations in flow velocity and phytoplankton concentration on sea scallop(Placopecten magellanicus) grazing rates, Journal of Experimental Marine Biology and Ecology, Vol. 240, pp. 111-136.   DOI   ScienceOn
6 Stead, S. M., G. Burnell and P. Goulletquer(2002), Aquaculture and its role in integrated coastal zone management, Aquac. Int., Vol. 10, pp. 447-468.   DOI   ScienceOn
7 Saaty, T. L.(1977), A scaling method for priorities in hierarchical structures, J. Math. Psychol., Vol. 15, pp. 234-281.   DOI
8 Salam, M. A., G. R. Lindsay and M. C. M. Beveridge(2003), A comparison of development opportunities for crab and shrimp aquaculture in south-western Bangladesh, using GIS modeling, Aquaculture, Vol. 220, pp. 477-494.   DOI   ScienceOn
9 Nath, S. S., J. P. Bolte, L. G. Ross and J. Aguilar-Manjarrez(2000), Applications of geographical information systems(GIS) for spatial decision support in aquaculture, Aquac. Eng., Vol. 23, pp. 233-278.   DOI   ScienceOn
10 Perez, O. M., T. C. Telfer and L. G. Ross(2005), Geographical information system-based models for offshore floating marine fish cage aquaculture site selection in Tenerife, Canary Islands, Aquac. Res., Vol. 36, pp. 946-961.   DOI   ScienceOn
11 Kingzet, B., R. Salmon and R. Canessa(2002), First nations shellfish aquaculture regional business strategy, BC central and northern coast, Aboriginal relations and economic measures, Land and Water British Columbia Inc, p. 256.
12 Malczewski, J.(1999), GIS and Multi criteria Decision Analysis, John Wiley & Sons, New York, pp. 392.
13 Malczewski, J.(2000), On the use of weighted linear combination method in GIS: common and best practice approach, Trans. GIS, Vol. 4, pp. 5-22.   DOI
14 Arnold, W. S., M. W. White, H.A. Norris and M. E. Berrigan(2000), Hard clam(Mercenaria spp.) aquaculture in Florida, U.S.A. - geographic information system applications to lease site selection, Aquac. Eng., Vol. 23, pp. 203-231.   DOI   ScienceOn
15 McKindsey, C.W., H. Thetmeyer, T. Landry and W. Silvert(2006), Review of recent carrying capacity models for bivalve culture and recommendations for research and management, Aquaculture, Vol. 261, pp. 451-462.   DOI   ScienceOn
16 Brown, J. R. and E. B. Hartwick(1988), Influences of Temperature, salinity and available food upon suspended culture of the pacific oyster, Crassostrea gigas: II. Condition index and survival, Aquaculture, Vol. 70, No. 3, pp. 253-267.   DOI   ScienceOn
17 Burrough, P. A. and R. A. McDonnell(1998), Principle of Geographical Information Systems, Oxford University Press. p. 327.
18 Chavez-Villalba, J.(2002), Broodstock conditioning of the oyster Crassostrea gigas: origin and temperature effect, Aquaculture, Vol. 214, pp. 115-130.   DOI   ScienceOn
19 Inglis, G. J., B. J. Hayden and A. H. Ross(2000), An Overview of Factors Affecting the Carrying Capacity of Coastal Embayments for Mussel Culture. NIWA, Christchurch, Client Report CHC00/69, pp. 1-31.
20 Bacher, C., J. Grant, A. J. S. Hawkins, J. Fang, M. Zhu and M. Besnard(2003), Modelling the effect of food depletion on scallop growth in Sungo Bay(China), Aquat. Living Resour., Vol. 16, pp. 10-24.   DOI   ScienceOn
21 Bernard, R. F.(1983), Physiology and the mariculture of some Northeastern Pacific bivalve molluscs, Can. Spec. Publ. Bull., Vol. 70, pp. 1121-1126.
22 박광서, 김효진(2008), 2008년산 굴 수급동향과 굴 양식업의 당면과제, 월간해양수산, 제287호, pp. 46-60.
23 배경만, 배평암(1972), 참굴의 수하양식에 관한 연구(I), 수진연구보고, 제9권, pp. 71-84.
24 배경만, 배평암(1973), 참굴의 수하양식에 관한 연구(II), 수진연구보고, 제11권, pp. 59-69.
25 배평암, 변충규, 고창순, 김윤, 강필애(1978), 참굴의 수하양식에 관한 연구(IV), 수진연구보고, 제11권, pp. 109-119.
26 최우정, 전영열, 박정흠, 박영철(1997), 한산거제만의 환경특성이 양식 굴의 비만에 미치는 영향, 한국수산학회지, 제30권, 제5호, pp. 794-803.
27 유성규(2001), 양식개론, 구덕출판사, p. 360.
28 이규형(1994), 가막만의 양식굴의 생산에 관한 수산해양학적 연구, 한국수산학회 1994년도 추계공동학술 심포지움, p. 59.
29 이병돈, 강형구, 강용주(1991), 굴 양식장 수역의 기초생산 연구, 한국수산학회지, 제24권, 제1호, pp. 39-51.
30 한국해양수산개발원(2006), 우리나라 굴 산업의 현황과 당면과제, 해양수산동향, 제1232호, pp. 1-11.
31 황국웅, 이규완(2000), GIS와 다요소의사결정방법(MCE)에 의한 김해 대청공원 집단시설지구 적지분석, 한국지리정보학회지, 제3권, 제3호, pp. 45-53.