수치모델을 이용한 해상어류가두리양식장의 환경관리 방안

권정노,정래홍,강양순,안경호,이원찬,Kwon, Jung-No,Jung, Rae-Hong,Kang, Yang-Soon,An, Kyoung-Ho,Lee, Won-Chan 한국해양학회 2005 바다 Vol.10 No.4

해상어류가두리양식장의 양식 활동이 해양환경에 미치는 영향을 파악하기 위해 통영주변의 해상어류가두리양식장(Site A)에서 해수유동, 퇴적물, 저서동물 및 트랩 등의 현장조사와 수치모델-DEPOMOD를 이용하여 가두리양식장의 고형물 침강량 예측과 적정 고형물 침강량 산정으로 해상가두리양식장의 환경관리 방안을 제시하였다. 조사대상인 Site A 해상어류가두리양식장의 입식 어종은 common sea bass(Lafeolabrax japonicus), red seabream(Pagrus major), striped breakperch(Oplegnathus fasciatus) 등 4종이고, 입식량은 227,800미 (23.1MT) 였다. 가두리양식장의 입식밀도는 $43.0kg\;m^{-2}(6.1kg\;m^{-3})$ 이고, 사료투여 량은 $30.8g\;kg^{-1}day^{-1}(1.32kg\;m^{-2}day^{-1})$ 이였다. Site A 가두리양식장 중심의 저층 퇴적물의 ORP, AVS, COD, 탄소 및 질소 농도는 각각 -334.6mV, $0.43mg\;g^{-1}dry,\;17.75mg\;g^{-l}dry,\;10.19mg\;g^{-1}dry$ 및 $3.49mg\;g^{-1}dry$ 였다. 저서동물은 Capitella capitata가 $57.8\%$로 우점하였고, Infaunal Trophical Index(ITI)는 가두리 가장자리에서 20m 거리 내까지 20 이하로 나타났다. 트랩조사 결과 Site A의 고형물 침강량은 0m에서 $34,485g\;m^{-2}yr^{-1}$, 42m지점에서 $18,915g\;m^{-2}yr^{-1}$침강하는 것으로 나타났다 모델 예측 결과 Site A의 사료 미섭이율은 $40\%$, 연간 고형물 침강량은 63,401 kg으로 연간 사료 급이량의 $24.4\%$이고, 고형물 침강 면적은 $8,450m^2$으로 가두리 시설 면적의 16배인 것으로 예측되었다. ITI와 저서동물의 풍도를 통한 Site A의 지속 가능한 고형물 침강량은 $10,000g\;m^{-2}yr^{-1}$ 이하 인 것으로 예측되었다. 가두리양식장에서 고형물 침강량의 주 요인은 높은 미섭이율이고, 고형물 침강량을 최소화 하기 위해서는 사료 섭이효율을 높여주어야 한다. 모델에 따르면 미섭이율을 $40\%$에서 $10\%$로 줄이면 고형물 침강량이 1/2 수준으로 감소되는 것으로 예측되었고, 습사료, 생사료의 사용 대신에 배합사료(EP)를 사용할 경우 $57\%$정도 침강량이 감소하는 것으로 나타났다. 또한 가두리양식장의 허가면적에 대한 시설 면적비는 $5\%$미만이 적정한 것으로 판단된다. To study the effects of aquaculture activity of marine cage fish farms on marine environment, field researches including hydrography, sediment, benthos and trap experiment at the marine cage fish farms(Site A) around estuaries of Tongyeong city were carried out during June $26\~27$, 2003. A simulation using numerical model-DEPOMOD was conducted to predict the solid deposition from fish cage and to assess the probable solid deposition, and the efficiency of environmental management of marine cage fish farms was studied. The marine cage fish farms cultured mainly common sea bass (Lateolabrax japonicus), red seabream (Pagrus major), striped breakperch (Oplegnathus fasciatus) and black rockfish(Sebastes schlegeli), and total amount of cultured fish of the Site A were 23.1MT. The amount of husbandry fish by unit area(and volume) of the fish cage was $43.0kg\;m^{-2}(6.1kg\;m^{-3})$. The daily mean amounts of food fed by unit biomass and cage area were $30.8g\;kg^{-1}day^{-1},\;1.32kg\;m^{-2}day^{-1},$ respectively, at the Site A. The concentration of ORP of the sediment below the center at the Site A was -334.6 mV and the concentrations of AVS, COD, Carbon and Nitrogen were $0.43mg\;g^{-1}dry,\;17.75mg\;g^{-1}dry,\;10.19mg\;g^{-1}dry\;and\;3.49mg\;g^{-1}dry$, respectively. Capitella capitata was dominant benthic species which occupied $57.8\%$ of total species, and the Infaunal Trophical Index(ITI) was marked below 20 within 20 m distance from the edge of the Site A. The result of trap experiment, the solid deposition from the Site A was $34,485g\;m^{-2}yr^{-1}$ at 0 m from the center of the cage and $18,915g\;m^{-2}yr^{-1}$ at 42 m. From a model simulation, it was estimated that using a model simulation, the proportion of unfed food was $40\%$ at the Site A and the annual total amount of solid deposition was 63,401 accounting for $24.4\%$ of the annual total food fed at the Site A. The area solid deposition settled was estimated to be $8,450m^2$, which was about 16 times of the total area of fish cage at the Site A. And concerning ITI and abundance of benthos, the model predicted that sustainable solid flux at the Site A was below $10,000gm^{-2}yr^{-1}$. The percentage of food wasted was main element of solid deposition at the marine cage fish farms, and for minimizing solid deposition it is necessary to increase the efficiency of the food uptake. Based on the result of the model simulation, if the percentage of food wasted decreases to $10\%$ from the current $40\%$, then the solid deposition could decrease to a half. In addition, it was predicted that if farmers use EP pellets as food fed instead of MP and fish trash, solid deposition could decrease by $57\%$. Also this study proposes that the cage facility ratio of the licensed area be decreased to less than $5\%$ to minimize the sediment pollution.

고성만 수질의 장기변동 특성

권정노(Jung No, Kwon) 한국해양환경·에너지학회 2010 한국해양환경·에너지학회지 Vol.13 No.4

남해 마산만 수질의 장기 변동 특성

권정노(Jung-No Kwon),임재현(Jae-Hyun Lim),심정희(Jeonghee Shim),이장호(Jangho Lee),최태준(Tae-Jun Choi) 한국해양환경·에너지학회 2014 한국해양환경·에너지학회지 Vol.17 No.3

한산거제만 해역의 수질 장기변동 특성

권정노(Jung-No, Kwon),박영철(Young-Chul Park),엄기혁(Ki-Hyuk Eom) 한국해양환경·에너지학회 2013 한국해양환경·에너지학회지 Vol.16 No.3

하계 금강하구 주변해역의 수질특성과 수질변동 요인분석

권정노(Jung-No Kwon),김종구(Jong-Gu Kim),유선재(Sun-Jae You) 한국해양환경·에너지학회 2000 한국해양환경·에너지학회지 Vol.3 No.4

진해만의 장기 수질변동 특성

권정노(Jung-No Kwon),이장호(Jangho Lee),김영숙(Youngsug Kim),임재현(Jae-Hyun Lim),최태준(Tae-Jun Choi),예미주(Mi-Ju Ye),전지원(Ji-Won Jun),김슬민(Seulmin Kim) 한국해양환경·에너지학회 2014 한국해양환경·에너지학회지 Vol.17 No.4

장기관측자료에 의한 금강하구둑 수문조작에 따른 수질 변화 평가

권정노(Jung No Kwon),김종구(Jong Gu Kim),고태승(Tae Seung Ko) 한국수산과학회 2001 한국수산과학회지 Vol.34 No.4

N/A This study was conducted to estimation of change characteristics for water quality by the dyke gate operation in the Keum River estuary. The estimation data made use of surveyed date in Keum River estuary by NFRDI (National Fisheries Research and Development Institute) during 1990~1999. Shown to compare water quality changes at st. A and st. D in Figure 1, the concentrations of TSS, COD and nutrients at st. A were as high as about 2~4 times than those at s. D due to affection of fresh water discharge in the Keum River. The percentages of water quality change at surface water by dyke gate operation in the Keum River estuary were shown that TSS (Total Suspended Solid) was decrease to 56%, 47% at st. A and D, and COD (Chemical Oxygen Demand) was increase to 68%, 71% at st. A and D, respectively. The changes percentage of DIN (Dissolved Inorganic Nitrogen) by dyke gate operation in the Keum River estuary were increase high to 95% at surface water and 7~30% at bottom water, but those of DIP (Dissolved Inorganic Phosphorus) were increase to 2.8~8.6% at surface water and 28% at bottom water. The range of fluctuation for water quality at each station by dyke gate operation has shown that salinity and TSS are little better than before dyke gate operation, but COD show highly fluctuation. Also we studied estimation of characteristics of water quality change by the season. COD was increased except the summer, TSS was decreased to all season. DIN was increased to about 61~172.1% for all season, but DIP was increased to the spring and decreased to the autumn. DIN enrichment in the estuary by dyke gate operation are interpreted to improvement of organic matter decomposition and nitrification by increasing the residence time and to increase nutrient flux in sediments due to decreasing dissolved oxygen and increasing a deposit matter.

낙동강 하구 해양환경 및 기상 요인이 김(Porphyre yezoensis) 생산량 변화에 미치는 영향

권정노 ( Jung No Kwon ),심정희 ( Jeong Hee Shim ),이상용 ( Sang Yong Lee ),조진대 ( Jin Dae Cho ) 한국수산과학회 2013 한국수산과학회지 Vol.46 No.6

To understand the effects of marine environmental and meteorological parameters on laver Porphyra yezoensis production at Nakdong River Estuary, we analyzed marine environmental (water temperature, salinity, nutrients, etc.) and meteorological properties (air temperature, wind speed, precipitation, sunshine hours) with yearly and monthly variations in laver production over 10 years (2003-2013). Air and water temperature, wind speed, sunshine hours and precipitation were major factors affecting yearly variability in laver production at the Nakdong River Estuary. Lower air and water temperatures together with higher levels of nutrients and sunshine and stronger wind speeds resulted in higher laver harvests. Salinity and nitrogen did not show clear correlations with laver production, mainly due to the plentiful supply of nitrogen from river discharge and the low frequency of environmental measurements,which resulted in low statistical confidence. However, environmental factors affecting monthly laver production were related to the life cycle (culturing stage) of Porphyra yezoensis and were somewhat different from factors affecting annual laver production. In November, a young laver needs lower water temperatures for rapid growth, while a mature laver needs much stronger winds and more sunshine, as well as lower temperatures for massive production and effective photosynthesis, mostly in December and January. However, in spring (March), more stable environments with fewer fluctuations in air temperature are needed to sustain the production of newly deployed culture-nets (2nd time culture). These results indicate that rapid changes in weather and marine environments caused by global climate change will negatively affect laver production and, thus, to sustain the yield of and predict future variability in laver production at the Nakdong River estuary, environmental variation around laver culturing farms needs to be monitored with high resolution in space and time.

진해만 양식어장 주변 표층 퇴적물 중 미량금속의 분포 특성 및 오염 평가

최태준,권정노,이가람,황현진,김영숙,임재현,Choi, Tae-Jun,Kwon, Jung-No,Lee, Garam,Hwang, Hyunjin,Kim, Youngsug,Lim, Jae-Hyun 해양환경안전학회 2015 해양환경안전학회지 Vol.21 No.4

2013년 8월 진해만을 대상으로 표층 퇴적물을 채취하여 미량금속(As, Cd, Co, Cr, Cu, Fe, Hg, Mn, Pb, Zn)의 분포를 살펴보고, 오염도를 분석하였다. 미량금속의 평균농도는 As 11.1 mg/kg, Cd 0.52 mg/kg, Co 14.1 mg/kg, Cr 69.8 mg/kg, Cu 57.2 mg/kg, Fe 3.7 %, Hg 0.064 mg/kg, Mn 600 mg/kg, Pb 40.1 mg/kg, Zn 167.2 mg/kg 의 범위로 조사되었다. 미량금속 중 As, Co, Cr, Fe의 농도는 만 전반적으로 균일한 분포를 보였다. 반면, Cd, Hg, Pb, Zn는 마산만을 포함한 진해만의 북쪽 해역, Cu는 진해만 남동쪽의 고현만, Mn은 거제도 북쪽과 마산만 남쪽을 잇는 만 동쪽방면의 외해로 열린 해역에서 국지적으로 높은 농도를 나타냈다. 각 미량금속의 공간적 분포, 퇴적물 입도 및 미량금속 간의 상관관계와 요인분석 결과 등을 종합적으로 검토해봤을 때, Co, Cr, Fe는 퇴적물의 입도, Mn은 퇴적물의 산화환원 상태, 그리고 As, Cd, Cu, Hg, Pb, Zn은 만 주변의 오염활동으로 인한 미량금속 공급에 따라 분포가 지배되는 것으로 파악되었다. 미량금속 중 As, Cd, Cr, Hg, Pb의 농도를 국내 해양 퇴적물 환경기준인 주의기준(TEL), 관리기준(PEL)과 비교 시, Cd, Hg, Pb의 농도가 만의 북쪽인 마산만 주변에서 주의기준을 초과하였다. 각 미량금속의 농축계수 및 농집지수를 계산한 결과, As, Cd, Cu, Hg, Mn, Pb, Zn가 일부 해역에서 인위적 오염을 보였다. 이 중 As, Mn, Zn은 우려할만한 수준의 오염을 보이진 않았으나, 마산만을 포함한 만 북쪽에서는 Cd, Hg, Pb, 만 남동쪽 가장 안쪽의 고현만에서는 Cu로 인한 오염 수준이 비교적 높게 나타나 해당 원소의 농축에 대해 주의가 필요할 것으로 판단된다. Trace metals(As, Cd, Co, Cr, Cu, Fe, Hg, Mn, Pb and Zn) concentrations in surface sediments of Jinhae bay in August of 2013 were measured to investigate the characteristics of trace metals distribution and to evaluate the metal pollution. Assessment for metal pollution was carried out using the sediment quality guidelines(SQGs) such as threshold effects level(TEL) and probable effects level(PEL) proposed by the ministry of onceans and fisheries(MOF) in Korea and geochemical assessment techniques(enrichment factor(EF) and geoaccumulation index ($I_{geo}$)). The mean concentration of trace metals in the sediments are as follows: 11.1 mg/kg for As, 0.52 mg/kg for Cd, 14.1 mg/kg for Co, 69.8 mg/kg for Cr, 57.2 mg/kg for Cu, 3.7 % for Fe, 0.064 mg/kg for Hg, 600 mg/kg for Mn, 40.1 mg/kg for Pb, 167.2 mg/kg for Zn. The spatial distributions of As, Co, Cr and Fe were not distinguished clearly in whole area. However, Cd, Hg, Pb and Zn were high in northern area of bay, and Cu and Mn were high in southeastern and eastern area of bay, respectively. The distribution pattern of trace metals, correlation matrix and R-mode factor analyses results revealed that the distribution of trace metals were mainly effected by the sediment grain size(Co, Cr and Fe), redox condition of sediments(Mn) and anthropogenic factors(As, Cd, Cu, Hg, Pb and Zn). Comparing the concentrations of several trace metals(As, Cd, Cr, Hg and Pb) with SQGs from Korea(TEL and PEL), the concentrations of Hg, Cd and Pb in sediment of northern area of bay were higher than TEL. EF and $I_{geo}$ values of As, Cd, Cu, Hg, Mn, Pb and Zn showed that these metals in sediments are enriched by anthropogenic activities in some areas, and pollution status for Cd, Hg and Pb in northern area and Cu in southeastern area of bay were concerned about current level, although those for As, Mn and Zn were not.

진해만과 주변해역 저층 영양염의 시·공간적 변동 특성

최태준,권정노,임재현,김슬민,Choi, Tae-Jun,Kwon, Jung-No,Lim, Jae-Hyun,Kim, Seul-Min 해양환경안전학회 2014 海洋環境安全學會誌 Vol.20 No.6

연안환경의 영양염 순환에서 저층에서의 영양염 재생산(regeneration)은 주요한 영양염 공급원 중 하나이다. 진해만 저층 영양염의 거동을 살펴보기 위해 2004년부터 2012년까지 9년간 진해만 내 14개 정점의 수질자료를 분석하였다. 저층의 용존무기질소, 인산염인, 규산염규소는 계절적 변동성을 나타내었고, 하계에 가장 높은 농도를 보였다. 특히, 빈산소 수괴(hypoxia) 형성 시기의 평균 영양염 농도는 정상산소상태(normoxia) 시기에 비해 약 2배 더 높게 나타났다. 하계 진해만의 저층 용존무기질소, 인산염인, 규산염규소의 농도는 재생산에 의해 모두 높은 경향을 보였으나, 공간적 농도 분포는 차이를 나타내었다. 용존무기질소와 인산염인은 마산만에서 가장 높은 농도를 보이는 반면 규산염규소는 마산만 뿐만 아니라 진해만 중심부에서도 높은 농도를 나타내었다. 또한 다른 영양염에 비해 규산염규소는 전 계절 동안 저층에서의 재생산이 큰 영향을 미치는 것으로 나타났다. 시계열 분석 결과 9년간 용존무기질소의 농도는 약 $14{\mu}M$에서 $6{\mu}M$로 뚜렷한 감소를 나타내었다. 용존무기질소의 감소로 인해 진해만 저층의 Si/N 비는 약 1에서 3으로 증가된 것으로 나타났다. In respect of the nutrients cycling in coastal environment, regeneration in bottom layer is one of major source of nutrients. We analyzed the bottom water quality at the 14 stations during 9 years from 2004 to 2012 to investigate the characteristics of nutrients at bottom layer in Jinhae Bay. Concentrations of DIN, DIP and DSi showed the large seasonal variation and were higher in summer. Especially, average concentrations of these nutrients were two times higher in hypoxic season than in normoxic season. In summer, high concentrations of DIN, DIP and DSi caused by regeneration were common feature, but spatial distribution of DSi differ from that of DIN and DIP. DIN and DIP were higher in Masan Bay, while DSi was higher in Masan Bay as well as in center of Jinhae Bay. In comparison with DIN and DIP, DSi was significantly affected by nutrients regeneration at bottom layer in whole season. According to time series analysis, DIN concentration was decreased from approximately $14{\mu}M$ to $6{\mu}M$. This result induce that Si:N ratio at bottom layer in Jinhae Bay changed from approximately 1 to 3.