Instant krill gruel was produced using peeled Antarctic krill Euphausia superba as a high nutritional ingredient and the food quality was investigated. The food quality of krill gruel was examined by measuring proximate composition, cholesterol, calorie, Hunter color value, total amino acids, fatty acids, fluoride, viscoelastic properties, and by sensory evaluation. The krill gruel had a moisture content of 87% and a pH of 6.65. The krill gruel contained 51 kcal/100 g, and 0.1% fat and 3.5 mg/100 g cholesterol. Its fatty acid composition exhibited high levels of unsaturated fatty acids. The levels of oleic acid and linolenic acid were high, and n-3, n-6, and n-9 fatty acid contents ranged from 1% to 6%. The total amino acid content was 2132 mg/100 g, and the levels of glutamic acid, aspartic acid, leucine, alanine, and arginine were particularly high. Essential amino acids accounted for over 30% of the total amino acids. Fluoride level in the krill gruel was 3.07 mg/kg. The viscoelastic properties of the krill gruel were determined as 6.28 Pa at shear stress of 2.51 Pa. In the recovery test, the elastic restoring force after deformation was low.

1 김지상, "크릴이 첨가된 된장의 품질 특성" 동아시아식생활학회 19 (19): 776-782, 2009

2 양윤형, "쌀의 농도가 죽 재가열시 이화학적 특성에 미치는 영향" 한국식품조리과학회 23 (23): 671-676, 2007

3 박정리, "쌀가루의 종류와 농도를 달리한 찐 흑임자 첨가 흑임자죽의 품질특성" 한국식품조리과학회 23 (23): 919-929, 2007

4 김민지, "쌀 입자 크기에 따른 생선죽의 이화학적 및 영양학적 특성" 한국식품저장유통학회 17 (17): 117-122, 2010

5 신은수, "쌀 입자 크기 및 물 첨가량에 따른 전복죽의 품질 특성" 한국식품영양과학회 37 (37): 245-250, 2008

6 조희숙, "노인급식에 적용하기 위한 새우 죽의 물리적, 관능적 품질특성 평가" 한국식생활문화학회 24 (24): 419-425, 2009

7 FDA, "Whole fish protein concentrate. Code of Federal Regulations, 21CFR172.385"

8 Kolkovski S, "Use of krill hydrolysate as a feed attractant for fish larvae and juveniles" 31 : 81-88, 2000

9 Kubitza F, "The use of freeze-dried krill to feed train largemouth bass (Micropterus salmoides): feeds and training strategies" 148 : 299-312, 1997

10 Krichnavaruk S, "Supercritical carbon dioxide extraction of astaxanthin from Haematococcus pluvialis with vegetable oils as cosolvent" 99 : 5556-5560, 2008

11 Kim DS, "Study on the manufacturing of chitosan using krill (Euphausia superba Dana) and quality characterstics" 43 : 309-313, 2000

12 Lee EH, "Studies on the processing of krill sauce" 13 : 97-106, 1984

13 ASTM, "Standard test method for total fluorine in coal by the oxygen bomb combustion/ion selective electrode method. ASTM International , D 3761-96: PA, U.S.A., 1-3"

14 Meilgaard M, "Sensory evaluation techniques, 2nd ed" CRC Press 53-55, 1991

15 Young VR, "Protein evaluation, amino acid scoring and the Food and Drug Administration’s proposed food labeling regulations" 121 : 145-150, 1991

16 Nicol S, "Products derived from krill, In Krill; Biology, Ecology and Fisheries" Blackwell Science 262-283, 2000

17 Han BH, "Processing of soy curd powder with soybean and krill" 12 : 137-141, 1979

18 Cheng Liang Xie, "Organic Acid Extraction of Fluoride from Antarctic Krill Euphausia superba" 한국수산과학회 15 (15): 203-207, 2012

19 Kuwano K, "On the Antarctic krill protein concentrate (KPC)-I manufacture of the KPC by isopropyl alcohol method and it’s chemical composition" 43 : 559-565, 1977

20 Horwitz W, "Official methods of analysis" AOAC Official Method. publish. AOAC Internation 2-102, 2005

21 AOCS, "Official method and recommended practices of the AOCS. Ca 5b-71" American Oil Chemists’ Society 1998

22 Cho KW, "Lipid and fatty acid composition of the Antarctic krill Euphausia superba" 21 : 109-116, 1999

23 Maki KC, "Krill oil supplementation increases plasma concentrations of eicosapentaenoic and docosahexaenoic acids in overweight and obese men and women" 29 : 609-615, 2009

24 Tou JC, "Krill for human consumption : nutritional value and potential health benefits" 65 : 63-77, 2007

25 Nicol S, "Krill fisheries of the world" FAO 1997

26 Moren M, "Fluorine accumulation in Atlantic salmon (Salmo salar), Atlantic cod (Gadus morhua), rainbow trout (Onchorhyncus mykiss) and Atlantic halibut (Hippoglossus hippoglossus) fed diets with krill of amphipod meals and fish meal based diets with sodium fluoride (NaF) inclusion" 269 : 525-531, 2007

27 Kim KH, "Fluoride reduction of Antarctic Krill by electrocondensation method" 22 : 172-176, 1990

28 Spittle BJ, "Fluoride poisoning : Is fluoride in your drinking water-and from other sources-making you sick?, In Fluoride fatigue (revised 4th printing)" Paua Press 1-48, 2009

29 Adelung D, "Fluoride in tissues of krill Euphausia superba Dana and Meganyctiphanes norvegica M. Sars in relation to the moult cycle" 7 : 43-50, 1987

30 Sands M, "Fluoride in Antarctic marine crustaceans" 132 : 591-598, 1998

31 Soevik T, "Fluoride in Antarctic Krill (Euphausia superba) and Atlantic Krill (Meganyctiphanes norvegica)" 36 : 1414-1416, 1979

32 Cripps GC, "Fatty acid content of Antarctic Euphausia superba at South Georigia related to regional populations and variations in diet" 181 : 177-188, 1999

33 Kim SK, "Extraction conditions and quality stability of carotenoprotein from krill processing waste by proteolytic enzymes" 23 : 40-50, 1990

34 Bunea R, "Evaluation of the Neptune krill oil on the clinical course of hyperlipidemia" 9 : 420-428, 2004

35 Vani ML, "Effects of fluoride accumulation on some enzymes of brain and gastrocnemius muscle of mice" 33 : 17-26, 2000

36 Yoshitomi B, "Effect of total replacement of dietary fish meal by low fluoride krill (Euphausia superba) meal on growth performance of rainbow trout (Oncorhynchus mykiss) in fresh water" 266 : 219-225, 2007

37 Lu Y, "Effect of high-fluoride water on intelligence in children" 33 : 74-78, 2000

38 Yoshitomi B, "Effect of dietary fluoride derived from Antarctic krill (Euphausia superba) meal on growth of yellowtail (Seriola quinqueradiata)" 86 : 891-897, 2012

39 Ishiguro K, "Distribution of fluoride in cortical bone of human rib" 52 : 278-282, 1993

40 Everson I, "Distribution and standing stock : the southern ocean, In krill biology, ecology and fisheries" Blackwell Science 63-79, 2000

41 Gigliotti JC, "Determination of the nutritional value, protein quality and safety of krill protein concentrate isolated using an isoelectric solubilization / precipitation technique" 111 : 209-214, 2008

42 Jung HR, "Decreasing effect of fluoride content in Antarctic krill (Euphausia superba) by chemical treatment" 48 : 1252-1259, 2013

43 Park HJ, "Decrease of fluoride content of Antarctic Krill" 20 : 19-22, 1988

44 Rasteiro MG, "Correlating the rheology of PVC-based pastes with particle characteristics" 23 : 361-375, 2005

45 Wang Z, "Comparison of the defluoridation efficiency of calcium phosphate and chitin in the exoskeleton of Antarctic krill" 23 : 149-154, 2012

46 Mohr V, "Chemical composition of North Atlantic krill" 88 : 157-164, 1987

47 Zhang H, "Biogeochemistry research of fluoride in Antarctic Ocean Ⅰ. The study of fluoride anomaly in Antarctic Krill" 4 : 55-61, 1993

48 Virtue P, "Biochemical composition of Nyctiphanes australis and its possible use as an aquaculture feed source: lipids, pigments and fluoride content" 122 : 121-128, 1995

49 Chen YC, "Amino acid and mineral composition of protein and other components and their recovery yields from whole Antarctic krill (Euphausia superba) using isoelectric silubilization/precipitation" 74 : H31-H39, 2009

50 Folch J, "A simple method for the isolation and purification of total lipids from animal tissues" 226 : 497-509, 1957

51 Atkinson A, "A re-appraisal of the total biomass and annual production of Antarctic krill" 56 : 727-740, 2009

52 Oehlenschlager J, "A functional protein concentrate (FKPC) from Antarctic krill (Euphausia superba, Dana 1850)" 172 : 393-398, 1981