• 한국수산과학회지
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• 제37권4호
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• pp.259-268
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• 2004

Keeping qualities of crude proteases (CP) and fractionated proteases (FP) sedimenting with $30\~80{\%}$ ammonium sulfate from four kinds of fish viscera as a seafood processing waste were examined. Azocaseinolytic activlties (pH 6 and 8) of CP from anchovy (Engraulis japonica), mackerel (Scomber japonicus), bastard flatfish (Pararlichthys olivaceus) and red sea bream (Chysorphys major) were stable without activity loss at $4^{\circ}C$ for 7 months. Activities of NaCP (CP containing $30{\%}$ sodium chloride) on azocasein were approximately $30{\%}$ lower than those of CP. FP activities Increased 3.4-16.1 folds compared to those of CP and NaCP Powdered crude protease (PCP) and fractionated and powdered protease (FPP) containing various sugars (lactose, sucrose, glucose and dextrin) were prepared by freeze drying. Activities of PCP and FPP containing sucrose were higher and more stable than those of PCP and FPP containing other sugars at $30^{\circ}C$ for whole keeping periods. PCP and FPP from mackerel viscera showed the highest proteolytic activity among four kind of fish vlsceras. The Optimum conditions and stabilities of FPP from mackerel viscera were pH 9 and $50^{\circ}C$, and pH 5-10 and $20-45^{\circ}C$, respectively. The results of this study suggest that FPP from seafood processing waste may be used as processing aids.

• 한국식품영양과학회지
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• 제21권3호
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• pp.319-326
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• 1992

The Louisiana crawfish industry comprises the largest concentration of crustacean aquaculture in the United States. Processing plants throughout the culture region annually generate as much as 80 million pounds of peeling waste during recovery of the 15% (by weight) edible tail meat. A commercial oil extraction process for recovery of carotenoid astaxanthin from crawfish waste has been developed. Crawfish pigment in its various forms finds applications as a source of red intensifying agents for use in aquaculture and poultry industries. Crawfish shell, separated in the initial pigment extraction step, is an excellent source of chitin. Applicable physicochemical procedures for isolation of chitin from crawfish shell and its conversion to chitosan have been developed. Crawfish chitosan has been demonstrated to be both an effective coagulant and ligand-exchange column material , respectively, for recovery of valuable organic compounds from seafood processing wastewater.

• 수산해양교육연구
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• 제27권2호
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• pp.566-575
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• 2015

The study aims to identify the generation and treatment of fishery by-products in Korea and suggests future directions and strategies for their eco-friendly utilization and industrialization. First, the study focuses on the identification of the generation and their treatment in Korea since merely few study were conducted and they did not provide enough information regarding the overall generation and treatment at the national level. According to the estimation, Korea generates 800 thousand to 1,200 thousand tones of fishery by-product every year. The fishery by-products generated at large seafood markets and processing facilities are used or processed as fish meal and feed, but those generated from households and small seafood restaurants are currently treated as food waste. In addition, inadequately treated fishery by-products cause various problems such as spoiling urban landscape, creating odor and incubating pest. After identifying the generation and treatment of fishery by-products, the study suggests directions for the formulation of infrastructure for transition into resource circulation society, minimization of dumped waste and their eco-friendly recycling as resources, diversification of recycled goods and development into a high-value added industry. Finally, the study suggests detailed strategies for the directions such as establishment of legal and institutional foundation, separation of fishery by-products from wastes, development of technology tailored for commercialization, introduction of pilot projects for industrialization and cultivation of social enterprises.

• 한국수산과학회지
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• 제36권1호
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• pp.11-17
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• 2003

수산가공부산물인 갑오징어갑을 칼슘소재로서 효율적으로 이용하기 위한 일련의 연구로 유기산 처리에 의해 갑오징어갑 분말의 가용성을 개선하기 위하여 처리 유기산의 종류 (아세트산, 젖산), 반응농도 (유기산의 몰에 반응하는 칼슘의 몰 비율), 반응시간 (6$\~$24시간), 반응온도 $(20\~60^{\circ}C)$ 등에 대하여 살펴보았다. 아울러 이들로부터 구명된 최적조건을 이용하여 고 가용성 갑오징어갑 분말을 제조한 다음 구조, 가용화 조건 등과 같은 부분적인 특성에 대하여도 살펴보았다. 갑오징어갑 분말의 가공용 개선을 위한 유기산으로는 아세트산이 적절하였고, 반응 조건은 칼슘의 몰/아세트산의 몰 비율을 0.4로 한 다음 실온에서 12시간 정도로 하는 것이 적절하였다 IR 및 XRD 상분석 결과 이렇게 제조한 아세트산처리 갑오징어갑 분말의 경우 주성분이 아세트산 칼슘이었고, 전자현미경 촬영 결과 불규칙한 형을 이루고 있었다. 최적 조건에서 유기산 처리된 갑오징어갑 분말의 가용성은 약 $5.3\%$로 원료에 비하여 약 1,380배 정도 개선되었다. 유기산 처리 갑오징어갑 분말을 가공 기능성 개선제와 같이 보다 효율적으로 이용하기 위하여는 실온에서 증류수 또는 수도수에 1시간 정도 진탕하여 사용하면 가능하리라 판단되었다. 이상의 결과로 미루어 보아 유기산처리 갑오징어갑 분말은 가공 기능성 개선제로 사용 가능하리라 판단되었다.

• Applied Biological Chemistry
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• 제40권4호
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• pp.318-322
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• 1997

오징어 내장유를 식용자원으로 이용하기 위한 일련의 연구로서 젤라틴, 물 및 정제 오징어 내장유로 형성된 유화물의 첨가에 의한 어육버거의 품질개선을 시도하였다. 과산화물값, 갈변도, 헌터색조, 젤리강도 및 관능검사의 결과로 미루어 보아, 고등어버거의 기능성 개선을 위한 유화물의 적절한 첨가량은 마쇄한 고등어육에 대하여 6%로 판단되었다. 채육한 고등어육에 대하여 6%에 해당하는 유화물을 첨가하여 제조한 고등어버거는 휘발성 염기질소, 총균수 및 히스타민함량이 각각 19.0 mg/100g, $6.2{\times}10^4CFU/g$ 및 50.7 mg/100g으로 그 함량이 낮아 식품위생적으로 안전하다고 판단되었다. 유화물 첨가 고등어버거의 포화산에 대한 고도불포화지방산의 비율은 1.13이었다. 색조, 젤리강도, 지방산조성 및 관능검사를 측정한 결과 유화물 첨가에 의해 고등어버거의 색조, 조직감 및 지질의 기능성을 일부 개선할 수 있었다.