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Preliminary observation of environmental factors around offshore cage system in Jeju island 18 th July 2005 Won Chan Lee, Rae Hong Jung, Hyun Taik Oh
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Contents I. Introduction III. Preliminary observation IV. Future work II. Case Study Offshore fish cageNFRDI
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Ⅰ. Introduction Offshore fish cage NFRDI Fish culture in the coastal waters of many countries has grown dramatically in recent years, and further growth is expected in coming decade (FAO) - Fish culture production : 2,000 ton (’96) → 37,000 ton (2003) The rapid growth led to growing concerns on environmental impact 1) Dispersion high organic and nutrients → Eutrophication, HAB - 85% of P, 80-88% of C, 52-95% of N as feed supply to environment - add organic load of cleaning fouled cage to water 2) Deposition high organic matter → anoxic, changing benthic ecosystem - organic contents of sediment is10 times higher than another coastal zone - macrofauna is lower species diversity & opportunistic species 3) Chemicals (therapeutants, vitamins and antifoulants), pathogens and new gene strains are raising environmental concerns
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Offshore fish cage NFRDI To prevent environmental effect of fish cage, there is a general tendency to force marine fish-farming offshore in USA, Scotland and Hong Kong etc to establish monitoring methodology for environmental impact of offshore fish cage - physical, chemical and benthic animal factors Ⅰ. Introduction
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Ⅱ. Case study : Mass balance Offshore fish cageNFRDI Farm site : Hakdong, 16 net cage(6x6m wide, 5m deep) Culturing period : Feb. to Dec., 1998 N, P in fish and fish food : CHN analyzer/ Acid digestion Sedimentation flux : U-type sediment trap, 10m, 1day Benthic flux : Chamber (50cm x 7cm diameter) Fish cage Parameters used in mass balance Total Environmental Loss (TEL) : (fish food and juveniles) – (harvest and fish loss) Introduction Environmental Loss : TEL - sediment accumulation Dispersion release from the cage : TEL - sedimentation Sedimentation accumulation : Sedimentation - benthic flux
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Ⅱ. Case study : Mass balance Offshore fish cageNFRDI Results Nitrogen is key element in aquatic environments and aquaculture systems N contents is 3.5% of fish food and 2.5% of fish body S edimentation flux : 1055 Nmg/m 2 /day Benthic flux : 47 Nmg/m2/day Summary of nitrogen mass balance in % of total input unit (kg N) Fish food : 2,548 (95.5%), Juveniles : 121 (4.5%) Harvest : 704 (26.4), Fish loss : 63 (2.4%) Sedimentation flux : 218 (8.2), Benthic flux : 11 (0.4) - Total environmental loss : 1,901 (71.3) - Introduction environmental loss : 1,694 (63.5) - Dispersion release : 1,683 (63.1) - Sediment accumulation : 207 (7.8)
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Ⅱ. Case study : Mass balance Offshore fish cageNFRDI Fig. Nitrogen mass balance in the cage farm - TEL : 71.3%
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Ⅱ. Case study : Spatial extent Offshore fish cageNFRDI Monitoring method to assess the environmental impact by Carroll et al (2003) - visual diving survey, benthic faunal analysis, sediment chemistry, sediment profile imagery - All method is very well agreement on impact zone, but BFA is the most sensitive method
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Ⅱ. Case study : Spatial extent Offshore fish cageNFRDI Farm A Farm B Numerical Composition of Major Taxonomic Groups
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Offshore fish cageNFRDI Distribution of Ecological Index Farm A Farm B Ⅱ. Case study : Spatial extent
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Offshore fish cageNFRDI Ⅱ. Case study : Spatial extent Distribution of dominant species
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Offshore fish cageNFRDI Ⅱ. Case study : Spatial extent T-0m T-2m T-5m T-10m T-15m T-20m T-30m T-60m TE-0m TE-5m TE-15m TE-30m TE-50m TS-0m TS-5m TS-15m TS-30m TS-50m Stress: 0.05 Farm A Farm B Highly enrichedSlightly enriched Results of MDS (Multi-Dimensional Scaling)
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Offshore fish cageNFRDI Ⅱ. Case study : Spatial extent > 50 : little effect, 20 – 50 : enriched, < 20 : degraded N 1 : suspension feeder N 2 : surface detritus feeder N 3 : surface deposit feeder N 4 : subsurface deposit feeder Distribution of Infaunal Trophic Index (ITI) Farm AFarm B
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Offshore fish cageNFRDI Ⅲ. Preliminary observation 1 st monitoring : 15 th – 16 th June 2005 - physical factors : WT, salinity etc. - current : draft (1hr), RCM 9 Mk Ⅱ (25hr) 2 nd monitoring : 13 th – 14 th July 2005 - physical and chemical factors - benthic fauna - current : ADCP (16 days) 18 th July
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Offshore fish cageNFRDI Ⅲ. Preliminary observation Distribution of physical factors around offshore cage in June
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Offshore fish cageNFRDI Ⅲ. Preliminary observation Current speed & direction at 30m depth - semi-diurnal - 1.1m/s - NE ~ NW Draft trajectory at 2m, 20m depth - NE - 1.12km of 2m, 0.55km of 20m - 35cm/s of 2m, 14.3cm/s of 20m
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Offshore fish cageNFRDI Ⅳ. Future work establish monitoring methodology : 1 st stage - gathering & analyzing previous research paper - co-work with NOAA assess environmental effect : 2 nd stage - sediment chemistry - benthic fauna analysis estimate mass balance : 3 rd stage - nitrogen or phosphorus
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Thank you for your attention !
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