한수지 50(6), 637-649, 2017 Original Article Korean J Fish Aquat Sci 50(6),637-649,2017 제주도산아열대성어류 20 종의지방산조성특징 문수경 김인수 고준철 1 박혜진 2 정보영 * 경상대학교식품영양학과 / 농업생명과학연구원, 1 국립수산과학원제주수산연구소, 2 창신대학교식품영양학과 Fatty Acid Composition of 20 Subtropical Fish Species from Jeju Island Soo-Kyung Moon, In-Soo Kim, Jun-Cheol Ko 1, Hye-Jin Park 2 and Bo-Young Jeong* Department of Food and Nutrition/Institute of Agriculture and Life Science, Gyeongsang National University, Jinju 52828, Korea 1 Jeju Fisheries Research Institute, National Institute of Fisheries Science, Jeju 63068, Korea 2 Department of Food Science and Nutrition, Changshin University, Changwon 51352, Korea Lipid levels and fatty acid compositions of 20 species of subtropical fish caught off the coast of Jeju Island, Korea were determined. The fish were categorized according to total lipid (TL) content as follows; lean fish (TL=1.19±0.32%, n=10 species), low-fat fish (TL=3.02±0.44%, n=6 species) and medium-fat fish (TL=6.87±1.23%, n=4 species). The prominent fatty acids were saturated fatty acids (SFAs), at 16:0 and 18:0 monounsaturated fatty acids (MUFAs), at 18:1n-9 and 16:1n-7, and polyunsaturated fatty acids (PUFAs), at 22:6n-3, 20:5n-3 and/or 20:4n-6. Across all species, the percentages of PUFAs and SFAs were 38.0±7.89% and 34.3±3.08%, respectively, with no significant difference between both groups (P<0.05), but showed higher proportions than that of MUFA group (27.8±7.23%) (P<0.05). The proportion of n-3 PUFAs was 27.1±8.68% across all fish species, similar to levels in other fishes from Korea. These results suggest that subtropical fish from Jeju Island are a good source of n-3 PUFAs for humans. Key words: Lipid content, Subtropical fish, n-3 Polyunsaturated fatty acid, Jeju island. 서론 (Jeong et al., 2003; Seong et al., 2010). (Min and Kim, 2006). 41 (1968-2008 ) 1.17 (1.13-1.78 ), (0.67 ) 2 (Suh et al., 2011; Belkin, 2009; Jang et al., 2006).,. Ko et al. (2015) 2012 2013 2, 49.4%. (MFDS, 2017a),., 20:5n-3 (eicosapentaenoic acid, EPA), 22:6n-3 (docosahexenoic acid, DHA) n-3 (polyunsaturated fatty acid, PUFA) (Ackman, 1989; Jeong et al., 1998b), n-3 PUFA (Kinsella, 1988; Hirayama, 1990; Yazawa and Kageyama, 1991; Breslow, 2006; Johnson and Schaefer, 2006; Hibbeln et al., 2007; Moon et al., 2014), n-3 PUFA (Bradberry and Hilleman, 2013; MFDS, 2017b).,,,,. (, ) (, ) https://doi.org/10.5657/kfas.2017.0637 Korean J Fish Aquat Sci 50(6) 637-649, December 2017 This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial Licens (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. Received 14 November 2017; Revised 20 November 2017; Accepted 22 November 2017 *Corresponding author: Tel: +82. 55. 772. 1435 Fax: +82. 55. 772. 1440 E-mail address: byjeong@gnu.ac.kr Copyright 2017 The Korean Society of Fisheries and Aquatic Science 637 pissn:0374-8111, eissn:2287-8815
638 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영 n-3 PUFA (Huynh and Kitts, 2009; Saito et al., 1999). 20 n-3 PUFA. 재료및방법 재료 Ko et al. (2015) 20. 9 (2015 ), 11 (2016 ) (Table 1). ( ).,,,. speed cutter (NFM-8860, NUC Co. Ltd., Korea), -70 (WUF-500, DAIHAN Scientific Co. Ltd., Korea). 2, 2 4. 총지질및지방산조성분석 (total lipid, TL) Bligh and Dyer (1959). TL AOCS (1998) GC-2010 Plus (Shimadzu, Ltd., Kyoto, Japan)., TL 14% BF 3 -Methanol (AOCS, 1998). TL Omegawax 320 fused silica capillary column (30 m 0.32 mm 0.25 µm film thickness, Supelco, Inc. Bellefonte, USA) Table 1. Biological data of 20 species of subtropical fish caught off the coast of Jeju island Korean name Scientific name Common name Body length Body weight No. of Collection (cm) (g) sample date 1. Yeol-ssang-dong-ga-ri Parapercis multifasciata Bicolor-barred weever 14.9±0.5 78.2±4.8 25 Dec. 2015 2. Ga-si-bog Diodon holocanthus Linnaeus Balloonfish 17.8±1.4 397.2±107.5 5 Aug. 2016 3. Sae-da-rae Brama japonica Pomfret 33.7±1.5 1656.0±247.7 3 Jul. 2015 4. Yug-dong-ga-ri-dom Evistias acutirostris Banded boarhead 22.0±1.0 464.7±50.6 3 Jun. 2015 5. Gin-ggo-ri-beng-e-dom Girella melanichthys Small scale blackfish 22.4±2.7 216.2±90.9 3 Jul. 2015 6. Ho-bag-dom Choerodon azurio Scar breast tuskfish 19.8±1.9 273.8±91.5 6 Aug. 2016 7. Geo-bug-bog Ostracion immaculatus Black-spotted boxfish 20.3±1.1 487.0±60.8 2 Aug. 2016 8. No-rang-ben-ja-ri Callanthias japonicus Yellowtail red bass 19.7±1.0 233.2±13.2 5 Jul. 2015 9. Ssug-gam-peng Scorpaenopsis cirrhosa Hairy stingfish 22.3±1.9 406.4±112.2 4 Aug. 2016 10. Cheong-jul-dom Chaetodontoplus septentrionalis Blue-lined angelfish 13.1±1.3 137.3±31.9 7 Aug. 2016 11. Dog-ga-si-chi Siganus fuscescens Rabbit fish 25.2±2.0 420.3±123.2 3 Aug. 2016 12. A-hob-dong-ga-ri Goniistius zonatus Whitespot-tail morwong 23.9±2.5 329.6±113.3 5 Aug. 2016 13. Hwang-nol-rae-gi Pseudolabrus sieboldi Bamboo leaf wrasse 16.5±1.6 128.7±37.1 5 Aug. 2016 14. Yeo-deorb-dong-gai-ri Goniistius quadricornis Black barred morwong 25.4±1.2 394.4±43.4 5 Jul. 2015 15. Beom-dom Microcanthus strigatus Stripey 11.9±1.1 79.8±20.7 9 Aug. 2016 16. Mu-jeom-hwang-nolrae-gi Pseudolabrus eoethinus Red naped wrasse 14.7±1.6 98.8±30.0 8 Aug. 2016 17. Gu-gal-dom Lethrinus haematopterus Red collared emperor 27.3±1.8 622.2±138.0 2 Aug. 2016 18. Du-jul-chog-su Pseudupeneus spilurus Japanese goatfish 27.8±1.2 544.0±38.8 4 Jun. 2015 19. Ben-ja-ri Parapristipoma trilineatum Three line grunt 23.9±1.0 330.0±20.2 4 Jul. 2015 20. Ja-ri-dom Chromis notata Coralfish 9.9±0.5 42.4±5.2 10 Jun. 2015
제주도산아열대성어류지방산조성 639 gas chromatograph (GC-2010 Plus, Shimadzu Seisakusho, Co, Ltd. Kyoto, Japan). (injector) FI (flame ionization) (detector) 250, (column oven) 180 8 3 /min 230 15. Carrier gas He (54.0 ml/min), split ratio 1:50. (Supelco 37 Component FAME Mix., Sigma-Aldrich Korea, Seoul, Korea) (retention time), (Ackman, 1986; Moon et al., 2005) ECL (equivalent chain length). methyl tricosanoate (99%, Sigma-Aldrich Korea, Seoul, Korea). 통계분석 SPSS 12.0 (SPSS Inc., Chicago, IL, USA) (SD), (one-way analysis of variance) P<0.05 Duncan's multiple range tests. 결과및고찰 총지질함량 Table 2-5 20 (total lipid, TL). TL 0.71% 8.23%, TL 4 (Ackman, 1989; Huynh and Kitts, 2009).,,,,,,,,,, 10 TL 1.19 0.32% lean fish [LF, TL 2%,, (KAST, 1998) ],,,,,, 6 TL 3.02 0.44% low-fat fish (LFF, TL 2-4%, ),,,, 4 TL 6.87 1.23% medium-fat fish (MFF, TL 4-8%, ). TL 9% high-fat fish (HFF, ). 20 TL Jeong et al. (1998a, b). TL 8.26% (Jeong et al., 1998a) TL (1.26%)., Table 2. Total lipid (TL) content and fatty acid compositions (% of total fatty acids) of five species of lean fish (LF) in 20 species of subtropical fish caught off the coast of Jeju island* Lean fish (TL<2%) 1. Bicolor-barred weever 2. Balloonfish 3. Pomfret 4. Banded boarhead 5. Small scale blackfish 14:0 0.83 ±0.11 c 0.28 ±0.01 a 0.56 ±0.03 b 2.90 ±0.04 g 2.33 ±0.06 f 15:0 iso - - - 0.10 ±0.01-15:0 0.41 ±0.00 0.26 ±0.02 0.19 ±0.01 0.58±0.01 0.43 ±0.00 16:0 DMA 1 0.43 ±0.01 1.74 ±0.11 0.87 ±0.01 0.20 ±0.05 0.63 ±0.01 16:0 19.51 ±0.11 e 16.13 ±0.17 a 21.09 ±0.07 h 17.88 ±0.34 c 21.12 ±0.02 h 17:0 iso 0.50 ±0.01 0.29 ±0.00 0.15 ±0.01 0.29 ±0.07 0.19 ±0.00 17:0 0.73 ±0.00 0.73 ±0.01 0.51 ±0.00 0.99±0.08 0.60 ±0.00 18:0 iso - 0.19 ±0.01 0.25 ±0.00 0.24 ±0.02 0.13 ±0.00 18:0 DMA 0.76 ±0.05 2.05 ±0.14 0.54 ±0.01 0.45 ±0.15 0.85 ±0.03 18:0 6.83 ±0.04 j 11.74 ±0.02 o 6.17 ±0.02 h 8.27 ±0.39 l 7.11 ±0.04 k 20:0 0.21 ±0.00 0.27 ±0.00 0.09 ±0.00 0.32 ±0.06 0.25 ±0.00 22:0 - - - 0.43 ±0.06 0.13 ±0.00 24:0 - - 0.07 ±0.01-0.15 ±0.00 Total SFA 30.22 33.69 30.49 32.65 33.93 14:1n-5 - - - 0.13 ±0.03 0.11 ±0.00 16:1n-7 1.69 ±0.02 a 2.76 ±0.03 c 1.99 ±0.06 b 4.47±0.02 g 2.96 ±0.05 d
640 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영 Table 2. Continued Lean fish (TL < 2%) 1. Bicolor-barred weever 2. Balloonfish 3. Pomfret 4. Banded boarhead 5. Small scale blackfish 16:1n-5-0.17 ±0.03 0.10 ±0.00 0.25 ±0.00 0.10 ±0.00 17:1n-7 0.46 ±0.02 0.50 ±0.00 0.35 ±0.01 0.92 ±0.08 0.09 ±0.00 18:1 DMA - - 1.23 ±0.03 0.31 ±0.01 0.22 ±0.01 18:1n-11 - - 0.06 ±0.00 0.46 ±0.06-18:1n-9 6.74 ±0.03 a 9.60 ±0.02 c 12.70 ±0.23 h 10.09 ±0.74 d 10.48 ±0.11 e 18:1n-7 2.07 ±0.01 c 4.20 ±0.00 k 1.79 ±0.01 b 2.12 ±0.11 c 2.15 ±0.00 c 18:1n-5 0.16 ±0.00 0.11 ±0.00 0.14 ±0.01 0.09 ±0.00 20:1n-11 0.15 ±0.00 0.32 ±0.02 1.89 ±0.30 0.16 ±0.01 20:1n-9 0.79 ±0.01 cd 2.29 ±0.03 i 0.80 ±0.01 cd 1.63 ±0.62 g 1.04 ±0.01 def 20:1n-7 0.43 ±0.01 0.20 ±0.01 0.06 ±0.00 0.28 ±0.07 0.21 ±0.01 22:1n-11 0.39 ±0.07 ab 0.37 ±0.01 ab 0.21 ±0.01 a 1.67 ±0.88 e 0.43 ±0.02 ab 22:1n-9 0.24 ±0.03 - - 1.67 ±0.63 0.27 ±0.00 22:1n-7 - - - 0.25 ±0.02 - Total MUFA 12.81 20.41 19.73 26.28 18.32 16:2n-7-0.34 ±0.02 0.10 ±0.00 0.18 ±0.01 0.09 ±0.00 16:2n-4 0.49 ±0.02 0.58 ±0.01 0.63 ±0.02 0.87±0.05 0.78 ±0.02 18:2n-6 0.74 ±0.01 0.83 ±0.00 0.43 ±0.01 0.60 ±0.12 1.69 ±0.01 18:2n-4-0.25 ±0.04 0.10 ±0.01 18:3n-6 0.44 ±0.00 0.34 ±0.00 0.15 ±0.01 0.40 ±0.02 0.47 ±0.00 18:3n-4 0.29 ±0.01 0.14 ±0.01 0.16 ±0.01 0.44 ±0.07 0.19 ±0.01 18:3n-3 0.18 ±0.01 0.17 ±0.01 0.15 ±0.00 0.25 ±0.07 0.92 ±0.03 18:4n-3 - - 0.16 ±0.01 0.75 ±0.20 0.50 ±0.02 18:4n-1 - - - 0.10 ±0.01-20:2n-6 0.24 ±0.00 0.42 ±0.00 0.21 ±0.00 1.05 ±0.81 0.24 ±0.00 20:3n-6-0.21 ±0.01-0.23 ±0.06 0.24 ±0.01 20:4n-6 4.60 ±0.05 k 14.05 ±0.10 r 1.91 ±0.01 c 7.49 ±0.22 p 4.32 ±0.03 j 20:3n-3 - - 0.21 ±0.00 1.16±0.93 0.13 ±0.00 20:4n-3 0.32 ±0.01 0.10 ±0.00 0.23 ±0.00 0.32 ±0.05 0.47 ±0.02 20:5n-3 5.88 ±0.03 k 4.19 ±0.03 e 3.26 ±0.03 c 8.83 ±0.06 p 6.13 ±0.02 l 22:2 NMID 2-0.24 ±0.00-0.14 ±0.01-22:3n-6 - - 0.05 ±0.00-0.15 ±0.01 22:4n-6 2.92 ±0.02 m 4.87 ±0.07 p 0.16 ±0.01 a 1.07 ±0.04 e 0.77 ±0.04 c 22:5n-6 1.60 ±0.00 1.60 ±0.03 0.73 ±0.00 0.56 ±0.04 1.36 ±0.01 22:5n-3 4.79 ±0.02 n 7.35 ±0.10 q 1.28 ±0.01 b 2.44 ±0.08 f 2.77 ±0.02 g 22:6n-3 34.46 ±0.02 n 10.48 ±0.12 e 39.95 ±0.38 o 13.94 ±0.60 g 26.46 ±0.13 l Total PUFA 56.97 45.91 49.78 41.07 47.76 TL (%) 0.71±0.01 a 0.82 ±0.03 a 0.87±0.01 a 1.09 ±0.01 b 1.25 ±0.01 c n-6 10.54 22.32 3.64 11.40 9.23 n-3 45.64 22.29 45.24 27.69 37.38 1 DMA, dimethyl acetal. 2 NMID, nonmethylene-interrupted diene. SFA, saturated fatty acid; MUFA, monounsaturated fatty acid; PUFA, polyunsaturated fatty acid. *Results represent means ± SD; superscripts denote significant differences (P<0.05) between all fish species (20 species).
제주도산아열대성어류지방산조성 641 Table 3. Total lipid content and fatty acid compositions (% of total fatty acids) of five species of lean fish (LF) in 20 species of subtropical fish caught off the coast of Jeju island* Lean fish (TL < 2%) 6. Scar breast tuskfish 7. Black-spotted boxfish 8. Yellowtail red bass 9. Hairy stingfish 10. Blue-lined angelfish 14:0 7.84 ±0.25 l 1.77 ±0.02 d 2.06±0.01 e 3.47 ±0.02 i 1.92 ±0.06 de 15:0 iso - - 0.11±0.01 - - 15:0 0.67 ±0.01 0.71 ±0.00 0.48±0.01 0.64 ±0.00 0.87 ±0.03 16:0 iso 0.18 ±0.01 0.58 ±0.00 - - 0.29 ±0.01 16:0 DMA 1 0.21 ±0.00 0.37 ±0.00 0.30±0.01 0.38 ±0.00 0.40 ±0.02 16:0 19.69 ±0.03 ef 20.43 ±0.03 g 22.61±0.33 k 21.88 ±0.05 j 21.57 ±0.20 ij 17:0 iso 0.55 ±0.00 1.09 ±0.02 0.17±0.04 0.21 ±0.00 0.72 ±0.02 17:0 1.05 ±0.01 0.76 ±0.00 0.52±0.00 0.43 ±0.01 0.39 ±0.03 18:0 iso 0.34 ±0.00 1.32 ±0.00 0.17±0.00 0.62 ±0.00 1.16 ±0.01 18:0 DMA 0.42 ±0.00 0.34 ±0.00 0.22±0.17 0.14 ±0.00 0.30 ±0.01 18:0 6.19 ±0.06 h 10.11 ±0.01 n 5.11±0.04 cd 5.97 ±0.04 g 5.69 ±0.08 f 20:0 0.27 ±0.01 0.30 ±0.00 0.26±0.00 0.25 ±0.00 0.30 ±0.01 22:0 - - 0.26±0.00 - - 24:0-0.26 ±0.00-0.19 ±0.05 0.25 ±0.02 Total SFA 37.42 38.04 32.26 34.20 33.85 14:1n-5 0.32 ±0.01 0.35 ±0.00-0.14 ±0.00 0.22 ±0.01 16:1n-7 4.05 ±0.15 e 5.84 ±0.01 j 5.17±0.37 h 7.00 ±0.01 l 6.92 ±0.12 l 16:1n-5 0.23 ±0.01-0.20±0.05 0.17 ±0.00-17:1n-7 0.67 ±0.03 1.12 ±0.01 0.30±0.01 0.47 ±0.00 1.25 ±0.02 18:1n-9 11.18 ±0.01 f 16.20 ±0.01 m 11.39±0.02 fg 11.61 ±0.05 g 15.87 ±0.00 l 18:1n-7 2.87 ±0.05 ef 4.92 ±0.03 l 2.47±0.03 d 2.11 ±0.00 c 4.86 ±0.10 l 18:1n-5 0.25 ±0.06 0.23 ±0.00 0.26±0.00 0.15 ±0.00 0.21 ±0.03 20:1n-11 1.04 ±0.02 0.29 ±0.01-0.31 ±0.00 0.30 ±0.01 20:1n-9 0.94 ±0.01 de 0.35 ±0.02 a 3.52±0.01 l 1.78 ±0.00 gh 0.63 ±0.01 bc 20:1n-7 0.54 ±0.01 0.42 ±0.03 0.27±0.06 0.15 ±0.00 0.27 ±0.00 22:1n-11 0.44 ±0.02 ab - 2.91±0.88 g 1.06 ±0.02 d - 22:1n-9 - - 0.47±0.03 0.35 ±0.00-22:1n-7 - - 0.13±0.01 0.35 ±0.00 - Total MUFA 22.54 29.72 27.09 25.32 30.53 16:2n-7 0.20 ±0.00 0.86 ±0.02-0.16 ±0.00 0.59 ±0.00 16:2n-4 0.81 ±0.01 0.74 ±0.03 0.42±0.02 0.86 ±0.01 0.85 ±0.02 18:2n-7 - - - - 0.39 ±0.05 18:2n-6 1.26 ±0.01 1.25 ±0.05 1.12±0.00 1.41 ±0.00 0.83 ±0.00 18:2n-4 0.20 ±0.00-0.18±0.01 - - 18:3n-6 0.32 ±0.01 0.58 ±0.01 0.19±0.05 0.28 ±0.00 0.48 ±0.01 18:3n-4 0.29 ±0.01 0.26 ±0.01 0.20±0.00 0.17 ±0.01 0.44 ±0.01 18:3n-3 0.61 ±0.00 0.51 ±0.01 0.46±0.02 0.76 ±0.02 0.39 ±0.00 18:4n-3 0.74 ±0.03 0.34 ±0.00 0.29±0.01 0.97 ±0.00-20:2 NMID 2 - - - - 0.77 ±0.00 20:2n-6 0.44 ±0.01 0.43 ±0.01 0.23±0.00 0.19 ±0.01 0.41 ±0.10 20:3n-6 0.22 ±0.01 0.24 ±0.01-0.17 ±0.04 0.53 ±0.01
642 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영. 6 (2015 ),,. 7 (1995 ) TL. 20 TL (0.71%- 8.26%, 2.87 2.28%) Jeong et al. (1998a,b) 72 19 (TL, 1.26-16.6%, 6.09 4.20%) 14 (TL, 0.88-8.80%, 3.41 2.70%), 26 (TL, 0.53-9.47%, 2.12 2.40%) TL, 14. 20 (Kim et al., 2005) Jeong et al. (1998a,b). (Kim et al., 2005). 지방산조성 20 14:0 22:6n-3 40 (Tables 2, 3, 4, 5). TL 5% 16:0, 18:0 (saturated fatty acid, SFA) 18:1n-9, 16:1n-7 (monounsaturated fatty acid, MUFA), 22:6n-3 (docosahexaenoic acid, DHA), 20:5n-3 (eicosapentaenoic acid, EPA) PUFA. 20 PUFA (37.9 7.88%)>SFA (34.3 3.08%)>MUFA (27.8 7.23%) PUFA SFA MUFA, PUFA SFA (P<0.05) (Table 6). 10 PUFA (43.1 7.20%)>SFA (33.7 2.55%)>MUFA (23.3 5.55%) (P<0.05), 20. 6 SFA (36.3 3.90%)>PUFA (33.8 4.41%)>MUFA (29.9 3.51%), SFA MUFA, SFA PUFA, PUFA MUFA (P<0.05). 4 MUFA (35.9 5.80%)>SFA (32.7 2.92%)>PUFA (31.4 3.16%), (P<0.05). SFA, Table 3. Continued Lean fish (TL<2%) 6. Scar breast tuskfish 7. Black-spotted boxfish 8. Yellowtail red bass 9. Hairy stingfish 10. Blue-lined angelfish 20:4n-6 6.30 ±0.08 n 8.45 ±0.01 q 1.26±0.02 b 3.00 ±0.02 f 6.51 ±0.17 o 20:3n-3 - - 0.29±0.13-0.76 ±0.63 20:4n-3 0.45 ±0.01 0.52 ±0.09 0.93±0.01 0.56 ±0.01 0.63 ±0.03 20:5n-3 6.05 ±0.02 l 3.45 ±0.00 d 4.55±0.06 f 4.92 ±0.01 h 2.54 ±0.07 a 22:2 NMID 1.74 ±0.03 0.25 ±0.00 - - 0.63 ±0.05 22:3n-6 0.26 ±0.01 - - 0.19 ±0.00-22:4n-6 1.46 ±0.03 h 3.17 ±0.01 o - 1.01 ±0.03 d 2.23 ±0.04 l 22:5n-6 0.96 ±0.00 0.71 ±0.01 1.02±0.02 1.53 ±0.01 2.53 ±0.08 22:5n-3 3.06 ±0.02 i 4.87 ±0.03 n 2.26±0.03 e 2.12 ±0.02 d 4.97 ±0.14 o 22:6n-3 14.68 ±0.19 h 5.59 ±0.06 a 27.25±0.40 m 22.16 ±0.08 k 9.15 ±0.17 d Total PUFA 40.04 32.24 40.65 40.48 35.62 TL (%) 1.29±0.14 cd 1.33 ±0.05 cd 1.37±0.01 cd 1.45±0.07 d 1.73 ±0.13 e n-6 11.22 14.84 3.82 7.79 13.52 n-3 25.59 15.29 36.03 31.49 18.43 1 DMA, dimethyl acetal. 2 NMID, nonmethylene-interrupted diene. SFA, saturated fatty acid; MUFA, monounsaturated fatty acid; PUFA, polyunsaturated fatty acid. *Results represent means ± SD; superscripts denote significant differences (P<0.05) between all fish species (20 species).
제주도산아열대성어류지방산조성 643 Table 4. Total lipid content and fatty acid compositions (% of total fatty acids) of five species of low-fat fish (LFF) in 20 species of subtropical fish caught off the coast of Jeju island* Low-fat fish (TL, 2-4%) 11. Rabbit fish 12. Whitespot-tail morwong 13. Bamboo leaf wrasse 14. Black barr- ed morwong 15. Stripey 14:0 3.33 ±0.01 hi 2.87 ±0.01 g 13.06 ±0.23 m 2.88 ±0.01 g 2.39 ±0.01 f 15:0 0.67 ±0.00 0.62 ±0.00 0.50 ±0.00 0.51 ±0.01 0.64 ±0.01 16:0 iso - 0.22 ±0.00-0.22 ±0.00 0.28 ±0.01 16:0 DMA 1 0.33 ±0.00 - - - - 16:0 25.25 ±0.09 m 19.91 ±0.05 f 19.69 ±0.13 ef 18.24 ±0.08 d 25.41 ±0.09 m 17:0 iso 0.33 ±0.01 0.44 ±0.19 0.39 ±0.01 0.52 ±0.01 0.57 ±0.01 17:0 0.62 ±0.00 0.96 ±0.49 0.66 ±0.02 0.92 ±0.00 0.28 ±0.00 18:0 iso 0.67 ±0.01 - - 0.26 ±0.00-18:0 DMA - 0.23 ±0.00-0.22 ±0.00 1.04 ±0.00 18:0 4.65 ±0.02 b 8.83 ±0.01 m 5.81 ±0.13 f 5.39 ±0.01 e 6.58 ±0.04 i 20:0 0.25 ±0.00 0.30 ±0.01 0.25 ±0.01 0.32 ±0.00 0.46 ±0.00 22:0-0.22 ±0.01 - - 0.19 ±0.00 24:0-0.19 ±0.00 - - - Total SFA 36.10 34.79 40.36 29.49 37.85 14:1n-5 0.17 ±0.00 0.17 ±0.00 0.20 ±0.00 0.21 ±0.00-16:1n-9 - - - - 2.93 ±0.06 16:1n-7 8.55 ±0.01 o 5.27 ±0.02 h 4.30 ±0.01 f 5.52 ±0.03 i 4.44 ±0.02 fg 16:1n-5-0.37 ±0.27 0.31 ±0.00 - - 17:1n-7 0.69 ±0.01 0.42 ±0.28 0.49 ±0.01 0.70 ±0.01 0.84 ±0.03 18:1n-11-0.46 ±0.00 0.44 ±0.01-0.30 ±0.00 18:1n-9 9.62 ±0.02 c 17.68 ±0.04 n 14.77 ±0.17 j 17.42 ±0.04 n 18.13 ±0.10 o 18:1n-7 3.84 ±0.01 j 4.06 ±0.01 k 3.22 ±0.06 g 3.28 ±0.01 gi 3.00 ±0.00 fg 18:1n-5 0.38 ±0.01 0.23 ±0.00 0.29 ±0.00 0.23 ±0.02 0.27 ±0.00 20:1n-11-1.18 ±0.01 0.97 ±0.03 0.92 ±0.01 0.97 ±0.00 20:1n-9 0.51 ±0.00 ab 1.06 ±0.01 ef 3.00 ±0.07 k 1.98 ±0.01 h 1.22 ±0.00 f 20:1n-7 0.31 ±0.00 0.41 ±0.02 0.57 ±0.00 0.41 ±0.01 0.47 ±0.00 22:1n-11 0.34 ±0.01 ab 0.63 ±0.01 bc 0.56 ±0.01 abc 1.11 ±0.01 d 0.57 ±0.01 abc 22:1n-9 - - 0.30 ±0.03 0.30 ±0.03 0.80 ±0.01 22:1n-7 - - - 0.19 ±0.01 Total MUFA 24.41 31.93 29.42 32.24 33.96 16:2n-7 0.25 ±0.00 0.43 ±0.18-0.29 ±0.01 0.32 ±0.00 16:2n-4 0.66 ±0.00 0.93 ±0.54 0.56 ±0.00 0.76 ±0.03 0.97 ±0.02 18:2n-7-0.40 ±0.00 0.28 ±0.00-0.25 ±0.00 18:2n-6 1.09 ±0.02 0.79 ±0.00 0.85 ±0.00 0.85 ±0.00 0.61 ±0.01 18:2n-4-0.22 ±0.00-0.26 ±0.01-18:3n-6 0.58 ±0.00 0.39 ±0.00 0.25 ±0.01 0.28 ±0.00 0.52 ±0.00 18:3n-4 0.19 ±0.02 0.27 ±0.01 0.20 ±0.00 0.36 ±0.00 0.24 ±0.02 18:3n-3 0.97 ±0.01 0.33 ±0.00 0.46 ±0.00 0.39 ±0.01-18:4n-3 0.72 ±0.01 0.33 ±0.01 0.75 ±0.05 0.51 ±0.01 1.00 ±0.04 20:2 NMID 2-0.36 ±0.01 0.52 ±0.02 - - 20:2n-6 0.21 ±0.01 0.57 ±0.01 0.53 ±0.01 0.74 ±0.45 0.31 ±0.00
644 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영 Table 4. Continued Low-fat fish (TL, 2-4%) 11. Rabbit fish 12. Whitespot-tail morwong 13. Bamboo leaf wrasse 14. Black barr- ed morwong 15. Stripey 20:3n-6 0.38 ±0.02 0.24 ±0.06 0.26 ±0.10-20:4n-6 4.85 ±0.09 l 4.99 ±0.05 m 4.08 ±0.02 i 2.82 ±0.02 e 4.53 ±0.03 k 20:3n-3 - - 0.20 ±0.03 - - 20:4n-3 0.86 ±0.01 0.35 ±0.00 0.44 ±0.00 0.77 ±0.02 0.37 ±0.01 20:5n-3 2.93 ±0.03 b 7.95 ±0.00 o 6.91 ±0.21 m 9.32 ±0.11 q 4.79 ±0.09 g 22:2 NMID 0.28 ±0.09 0.95 ±0.01 0.89 ±0.05 0.48 ±0.02 0.82 ±0.01 22:3n-6-0.19 ±0.01-0.43 ±0.00-22:4n-6 1.24 ±0.01 g 3.01 ±0.01 n 1.54 ±0.04 i 1.13 ±0.01 f 2.18 ±0.00 k 22:5n-6 1.76 ±0.01 0.59 ±0.02 0.43 ±0.01 0.62 ±0.00 0.72 ±0.00 22:5n-3 6.39 ±0.06 p 3.73 ±0.01 k 2.94 ±0.03 h 4.68 ±0.02 m 4.04 ±0.05 l 22:6n-3 16.14 ±0.18 i 6.25 ±0.13 b 8.13 ±0.11 c 13.59 ±0.09 g 6.52 ±0.02 b Total PUFA 39.49 33.28 30.22 38.27 28.20 TL (%) 2.24±0.02 f 2.89±0.11 g 2.90±0.05 g 3.27±0.09 h 3.34±0.17 hi n-6 10.10 10.78 7.95 6.86 8.88 n-3 28.01 18.94 19.82 29.26 16.72 1 DMA, dimethyl acetal. 2 NMID, nonmethylene-interrupted diene. SFA, saturated fatty acid; MUFA, monounsaturated fatty acid; PUFA, polyunsaturated fatty acid. *Results represent means ± SD; superscripts denote significant differences (P<0.05) between all fish species (20 species). PUFA, MUFA (Huynh and Kitts, 2009). guppy Kayama et al. (1963). (, 5 62 N) 5 SFA (57.2-74.2%)>MUFA (21.4-39.0%)>PUFA (2.8-14.1%) (Arai et al., 2015), (, 8 549-8 554 N) 6 SFA (62.4-72.4%)>MUFA (15.1-20.3%)>PUFA (9.7-17.1%) (Metilio and Aspiras-Eye, 2014). SFA PUFA 10%. 10 (, 10 48-10 52 N) SFA (31.6-39.0%)>PUFA (30.3-35.1%)>MUFA (22.0-26.3%) (Dhaneesh et al., 2012), 3 (, 26 15'N) (, 24 30 N) SFA (39.2-43.7%)>PUFA (29.0-37.3%)>MUFA (20.7-23.3%) (Saito et al., 1999). SFA, PUFA. Jeong et al. (1998b) 72 14 (, 34 85'N) PUFA (17.5-52.2%, 34.0 10.0%)>MUFA (18.6-47.5%, 33.3 7.8%)>SFA (28.3-43.6%, 32.8 4.0%) (Jeong et al., 1998b), PUFA. 20 (, 33 25'N) PUFA (37.9 7.88%) SFA (34.3 3.08%)>MUFA (27.8 7.23%) MUFA. 8 (Özogul et al., 2007) PUFA>SFA>MUFA. 8 (British Columbia Alaskan) PUFA (24.2-56.8%)>MUFA (14.2-53.0%)>SFA (19.3-36.9%) (Huynh and Kitts, 2009), South Georgia (, 54 S) 10 PUFA (14.8-57.3%)>MUFA (15.8-52.8%)>SFA (24.4-36.3%) (Stowasser et al., 2012).,,,, PUFA, MUFA.
제주도산아열대성어류지방산조성 645 Table 5. Total lipid content and fatty acid compositions (% of total fatty acids) of one species of LFF and four species of medium-fat fish in 20 species of subtropical fish caught off the coast of Jeju island* LFF Medium-fat fish (TL, 4-8%) 16. Red naped wrasse 17. Red collared emperor 18. Japanese goatfish 19. Three line grunt 20. Coralfish 14:0 12.87 ±0.05 m 3.27 ±0.07 hi 3.15±0.03 h 4.13 ±0.06 j 5.79±0.42 k 15:0 iso - - - - 0.29±0.02 15:0 anteiso - - - - 0.09±0.00 15:0 0.72 ±0.01 0.49 ±0.01 0.75±0.01 0.74 ±0.01 0.66±0.04 16:0 iso - 0.16 ±0.00 - - - 16:0 18.08 ±0.03 cd 21.41 ±0.18 hi 23.76±0.08 l 21.87 ±0.10 j 16.86±0.56 b 17:0 iso 0.38 ±0.01 0.39 ±0.00 0.38±0.01 0.28 ±0.01 0.21±0.04 17:0 0.77 ±0.01 0.67 ±0.01 0.98±0.01 0.68 ±0.00 0.49±0.01 18:0 iso 0.25 ±0.00 0.22 ±0.01 0.30±0.00 0.21 ±0.00 0.22±0.03 18:0 DMA 1 0.16 ±0.01 - - - 0.16±0.01 18:0 5.68 ±0.02 f 6.63 ±0.02 i 5.20±0.01 d 4.96 ±0.01 c 3.34±0.03 a 20:0 0.29 ±0.01 0.33 ±0.00 0.34±0.00 0.32 ±0.01 0.21±0.01 22:0-0.21 ±0.00 0.24±0.00 0.15 ±0.01 0.11±0.07 Total SFA 39.19 33.78 35.10 33.35 28.42 14:1n-5 0.22 ±0.01-0.16±0.01 0.13 ±0.00 0.09±0.01 16:1n-7 3.98 ±0.01 e 6.90 ±0.12 l 7.96±0.00 n 6.28 ±0.03 k 7.58±0.12 m 16:1n-5 0.27 ±0.00-0.17±0.00 0.34 ±0.00 0.39±0.06 17:1n-7 0.50 ±0.01 0.65 ±0.01 0.68±0.00 0.44 ±0.01 0.66±0.03 18:1 DMA - - - - 0.40±0.01 18:1n-11-0.18 ±0.00 - - - 18:1n-9 13.23 ±0.02 i 20.94 ±0.00 p 15.87±0.01 l 15.48 ±0.02 k 7.49±0.13 b 18:1n-7 2.19 ±0.01 c 3.13 ±0.01 gh 3.06±0.33 i 2.74 ±0.00 e 1.50±0.01 a 18:1n-5 0.19 ±0.01-0.17±0.00 0.47 ±0.02 0.26±0.02 20:1n-11 0.86 ±0.00 1.10 ±0.02 0.74±0.00 0.25 ±0.00-20:1n-9 3.47 ±0.01 l 1.26 ±0.01 f 1.59±0.01 g 2.54 ±0.01 j 10.83±0.10 m 20:1n-7 0.33 ±0.02 0.41 ±0.01 0.32±0.01 0.24 ±0.01 0.46±0.28 22:1n-11 2.07 ±0.01 f 0.61 ±0.02 abc 0.79±0.01 cd 2.57 ±0.02 g 14.29±0.17 h 22:1n-9 0.34 ±0.01 0.33 ±0.02 0.24±0.00 0.46 ±0.00 0.21±0.03 22:1n-7-0.19 ±0.01 - - - Total MUFA 27.64 35.71 31.75 31.95 44.14 16:2n-7 0.17 ±0.00 0.23 ±0.00 0.23±0.00 0.13 ±0.01 0.26±0.01 16:2n-4 0.81 ±0.01 0.61 ±0.01 0.46±0.03 0.89 ±0.02 0.55±0.03 18:2n-7 0.18 ±0.01 0.66 ±0.05 0.20±0.00 - - 18:2n-6 1.08 ±0.01 0.69 ±0.01 1.19±0.01 1.01 ±0.04 1.35±0.03 18:2n-4-0.17 ±0.01-0.18 ±0.02 0.16±0.03 18:3n-6 0.23 ±0.00 0.26 ±0.01 0.26±0.02 0.19 ±0.02 0.28±0.05 18:3n-4 0.26 ±0.00 0.28 ±0.00 0.23±0.03 0.22 ±0.03-18:3n-3 0.58 ±0.00 0.27 ±0.02 0.63±0.07 0.78 ±0.13 0.10±0.07 18:4n-3 1.24 ±0.00 0.28 ±0.01 0.56±0.01 0.80 ±0.02 3.72±0.07 18:4n-1 - - - - 0.09±0.00 20:2 NMID 2-0.73 ±0.00 0.24±0.07 0.45 ±0.42 -
646 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영 Table 5. Continued LFF Medium-fat fish (TL, 4-8%) 16. Red naped wrasse 17. Red collared emperor 18. Japanese goatfish 19. Three line grunt 20. Coralfish 20:2n-6 0.46 ±0.01 0.36 ±0.01 0.38±0.05 0.26 ±0.08 0.19 ±0.00 20:3n-6-0.17 ±0.02 - - - 20:4n-6 3.17 ±0.01 3.37 ±0.02 2.07±0.00 1.15 ±0.00 0.41 ±0.03 20:3n-3 0.19 ±0.00-0.16±0.00-0.18 ±0.08 20:4n-3 0.41 ±0.01 0.39 ±0.04 0.30±0.01 1.00 ±0.01 0.69 ±0.01 20:5n-3 5.40 ±0.02 i 4.85 ±0.02 gh 5.68±0.06 j 4.93 ±0.02 h 7.19 ±0.13 n 22:2 NMID 0.42 ±0.00 0.41 ±0.01 0.29±0.01 - - 22:3n-6 0.25 ±0.00 0.22 ±0.00 0.18±0.01 0.24 ±0.00-22:4n-6 1.14 ±0.03 f 1.85 ±0.04 j 1.04±0.02 de 0.33 ±0.00 b - 22:5n-6 0.58 ±0.00 0.49 ±0.00 0.63±0.01 0.61 ±0.00 0.23 ±0.01 22:5n-3 1.93 ±0.01 c 3.79 ±0.03 k 2.34±0.09 e 3.25 ±0.04 j 0.61 ±0.01 a 22:6n-3 14.68 ±0.11 h 10.41 ±0.20 e 16.08±0.15 i 18.19 ±0.26 j 11.43 ±0.38 f Total PUFA 33.17 30.51 33.15 34.63 27.44 TL (%) 3.45±0.01 i 5.42 ±0.04 j 6.41±0.05 k 7.38±0.26 l 8.26±0.14 m n-6 6.91 7.41 5.74 3.80 2.46 n-3 24.43 20.01 25.75 28.95 23.91 1 DMA, dimethyl acetal. 2 NMID, nonmethylene-interrupted diene. SFA, saturated fatty acid; MUFA, monounsaturated fatty acid; PUFA, polyunsaturated fatty acid. *Results represent means ± SD; superscripts denote significant differences (P<0.05) between all fish species (20 species). (homeoviscous adaptation). PUFA (Farkas,1979; Gladyshev et al., 2011). PUFA n-3 PUFA DHA EPA, n-6 PUFA 20:4n-6. DHA 20.4% ( 14.0%) ( 10.9%). (40.0%), (34.5%), (27.3%), (26.5%), (22.2%) 5 DHA 20%, 20 (P<0.05). TL PUFA PUFA ( ) PUFA triglyceride ( ) (Fogerty et al., 1986). EPA 4.98%, ( 6.21%) ( 5.63%). 20:4n-6 5.79%, ( 4.07%) ( 1.75%). 20:4n-6 (14.1%), (8.45%), (7.49%), (6.51%), (6.30%) (P<0.05). 20:4n-6. (Kim et al., 2005). Jeong et al., (1998b) 72 (8.85%), (7.45%), (5.62%) 20:4n-6, (NIFS, 1994; Chyung, 1991). (Siganus canaliculatus) 20:4n-6 (Saito et al., 1999).. 20:4n-6 EPA 22:5n-3, DHA (Jeong et al., 1998c), (Jeong et al., 1993; Dawczynski et al., 2007).
제주도산아열대성어류지방산조성 647 Table 6. The SFA, MUFA and PUFA compositions (% of total fatty acids) in all fish (20 species), lean fish (10 species), low-fat fish (6 species) and medium-fat fish (4 species)* Category SFA MUFA PUFA All fish 34.3±3.23 b 27.8±7.01 a 37.9±7.71 b Lean fish 33.7±2.55 b 23.3±5.55 a 43.1±7.20 c Low-fat fish 36.3±3.90 b 29.9±3.51 a 33.8±4.41 ab Medium-fat fish 32.7±2.92 a 35.9±5.80 a 31.4±3.16 a SFA, saturated fatty acid; MUFA, monounsaturated fatty acid; PUFA, polyunsaturated fatty acid. *Results represent means±sd; superscripts denote significant differences (P<0.05) between all fish species (20 species). SFA PUFA 14:0. SFA 14:0 6.23% ( 2.40%) ( 4.13%). SFA 16:0 ( 21.1%) ( 20.2%), ( 21.0%). MUFA, 20:1n-9 22:1n-11. 20:1n-9 4.04%, 1.36% 1.87%. 22:1n-11 4.54% 0.75% 0.88%. 20:1n-9 22:1n-11 10.8% 14.3%, 20 (P<0.05). 20:1n-9 22:1n-11 (15.5% 14.36%) (5.20% 6.37%) (Huynh and Kitts, 2009), (12.4% 15.3%)(Budge et al., 2002) (16.3% 24.4%)(Copeman and Parrish, 2004). 2 MUFA copepod ( ) (Graeve et al., 1994; Budge et al., 2002). wax esters 20:1 22:1 fatty alcohol 20:1n-9 22:1n-11 (Tocher, 2003). (Kim et al., 2005), 99.3% (Ko and Jeon, 1983). 20:1n-9 22:1n-11. (Jeong et al., 1998b) 20:1n- 9 22:1n-11., (Kayama et al., 1963; Jeong et al., 1998b,c). n-3 PUFA,,, (Kayama et al., 1963). 20 DHA, EPA n-3 PUFA 27.0 8.68%. 72 19 (29.9 7.71%) 14 (26.2 7.19%) (Jeong et al., 1998b). n-3 PUFA (Metilio and Aspiras-Eye, 2014) n-3 PUFA (9.73-17.1%, 13.2%) 14%. (Huynh and Kitts, 2009) n-3 PUFA (33.8-44.9%, 38.2%) 10%. (Huynh and Kitts, 2009; Saito et al., 1999)., 20 TL, (Jeong et al., 1998a,b) TL n-3 PUFA. 사사 2016. References Ackman RG. 1986. WCOT (capillary) gas-liquid chromatography. In: Analysis of oils and fats. Hamilton RJ and Rossell JB, eds. Elsevier Applied Science Publishers Ltd., London and New York, U.K. and U.S.A., 137-206. Ackman RG. 1989. Nutritional composition of fats in seafoods. Prog Food Nutr Sci 13, 161-289. AOCS (American Iol Chemists' Society). 1998. AOCS official method Ce 1b-89. In: Official Methods and Recommended Practice of the AOCS (5th Ed). Firestone D, ed. AOCS,
648 문수경ㆍ김인수ㆍ고준철ㆍ박혜진ㆍ정보영 Champaign, U.S.A. Arai T, Amalina R and Bachok Z. 2015. composition indicating diverse habitat use in coral reef fishes in the Malaysian South China Sea. Biolog Res 48:13. https://doi. org/10.1186/s40659-015-0004-0. Belkin IM. 2009. Rapid warming of large marine ecosystems. Prog Oceanogr 81, 207-213. https://doi.org/10.1016/j.poean. 2009.04.011. Bligh EG and Dyer WJ. 1959. A rapid method of lipid extraction and purification. Can J Biochem Physiol 37, 911-917. Bradberry JC and Hilleman DE. 2013. Overview of omega-3 fatty acid therapies. Pharm Ther 38, 681-691. Breslow JL. 2006. n-3 s and cardiovascular disease. Am J Clin Nutr 83, 1477S-1482S. Budge SM, Iverson SJ, Bowen WD and Ackman RG. 2002. Among- and within-species variability in fatty acid signatures of marine fish and invertebrates on the Scotian Shelf, Georges Bank, and Southern Gulf of St. Lawrence. Can J Fish Aquat Sci 59, 886-898.https://doi.org/10.1139/F02-062. Chyung MG. 1991. The Fishes of KOREA. Iljisa, Seoul, Korea, 593-594. Copeman LA and Parrish CC. 2004. Lipids classes, fatty acids, and sterols in seafood from Gilbert Bay, southern Labrador. J Agric Food Chem 52, 4872-4881. https:// doi.org/10.1021/ j034820h. Dawczynski C, Schubert R and Jahreis G. 2007. Amino acids, fatty acids, and dietary fibre in edible seaweed products. Food Chem 103, 891-899.https:// doi.org/10.1016/j.foodchem.2006.09.041. Dhaneesh KV, Noushad KM and Kumar TTA. 2012. Nutritional evaluation of commercially important fish species of Lakshadweep Archipelago, India. PLOS ONE 7(9), e45439. https://doi.org/10.1371/journal.pone.0045439. Farkas T. 1979. Adaptation of fatty acid compositions to temperature- a study on planktonic crustaceans. Comp Biochem Physiol B Biochem Mol Biol 64, 71-76. Fogerty AC, Evans AJ, Ford GL and Kennett BH. 1986. Distribution of w6 and w3 fatty acids in lipid classes in Australian fish. Nutr Rep Int 33, 777-786. Gladyshev MI, Semenchenko VP, Dubovskaya OP, Fefilova EB, Makhutova ON, Buseva ZF, Sushchik NN, Razlutskij VI, Lepskaya EV, Baturina MA, Kalachova GS and Kononova ON. 2011. Effect of temperature on contents of essential highly unsaturated fatty acid in freshwater zooplankton. Limnologica 41, 339-347. https:// doi.org/10.1016/j. limno.2011.03.001. Graeve M, Hagen W and Kattner G. 1994. Herbivorous or omnivorous? On the significance of lipid compositions as trophic markers in Antarctic copepods. Deep Sea Res Part 1, Oceanogr Res Pap 41, 915-924. https://doi. org/10.1016/0967-0637(94)90083-3. Hibbeln JR, Davis JM, Steer C, Emmett P, Roger I, Williams C and Golding J. 2007. Maternal seafood consumption in pregnancy and neurodevelopmental outcomes in childhood (ALSPAC study): an observational cohort study. Lancet 369, 578-585. Hirayama T. 1990. Life-style and mortality: A large-scale census-based cohort study in Japan. Contrib Epidemiol Biostat 6, 1-133. Huynh MD and Kitts DD. 2009. Evaluating nutritional quality of Pacific fish species from fatty acid signatures. Food Chem 114, 912-918. https://doi.org/10.1016/j.foodchem. 2008.10.038. Jang SM, Kim SS, Choi YC and Kim SG. 2006. A study of correlations between air-temperature of Jeju and SST around Jeju island. J Korean Soc Mar EnvironEngin 9, 55-62. Jeong BY, Cho DM, Moon SK and Pyeun JH. 1993. Quality factors and functional components in the edible seaweeds-1. Distribution of n-3 fatty acids in 10 species of seaweeds by their habitats. J Korean Soc Food Nutr 22, 621-628. Jeong BY, Choi BD and Lee JS. 1998a. Proximate composition, cholesterol and α-tocopherol content in 72 species of Korean fish. J Korean Fish Soc 32, 192-197. Jeong BY, Choi BD, Moon SK and Lee JS. 1998b. composition of 72 species of Korean fish. J Fish Sci Tech 1, 129-146. Jeong BY, Choi BD, Moon SK, Lee JS and Jeong WG. 1998c. composition of 35 species of marine invertebrates. J Fish Sci Tech 1, 232-241. Jeong HD, Hwang JD, Jung KK, Heo S, Sung KT, Go WJ, Yang JY and Kim SW. 2003. Long term trend of change in water temperature and salinity in coastal waters around Korean peninsula. J Kor Soc Mar Envir Saf 9, 59-64. Johnson EJ and Schaefer EJ. 2006. Potential role of dietary n-3 fatty acids in the prevention of dementia and macular degeneration. Am J Clin Nutr 83, 1494S-1498S. KAST (The Korean Acadmy of Science and Technology). 1998. Scientific and Technological Terminology. Academya. Seoul, Korea, 810. Kayama M, Tsuchiya Y and Mead F. 1963. A model experiment of aquatic food chain with special significance in fatty acid conversion. Nippon Suisan Gakkaishi 29, 452-458. Kim IS, Choi Y, Lee CL, Lee YG, Kim BJ and Kim JH. 2005. Illustrated Book of Korean Fish. Kyo-Hak Publishing Co., Ltd., Seoul, Korea, 1-615. Kinsella JE. 1988. Food lipids and fatty acids-importance in food quality, nutrition, and health. Food Technol 42, 124-145. Ko JC, Kim BY, Kim MJ, Park SE, Kim JB and Cho HK. 2015. A seasonal characteristic of marine environment and fish assemblage in the coastal waters Jeju island, Korea from 2012 to 2013. JFMSE 27, 319-344. http://dx.doi:org/10.13000/ JFMSE.2015.27.2.319.
제주도산아열대성어류지방산조성 649 Ko YB and Jeon DS. 1983. Fisheries biology for fishing improvement and optimum catch of a damsel fish, Chromis notatus (Pisces, Pomacentridae) in Seogwipo, Jeju island-2. Food and feeding habits. Bull Mar Resour Res Inst Jeju Nat Univ 7, 15-21. Metillo EB and Aspiras-Eya AA. 2014. s in six small pelagic fish species and their crustacean prey from the Mindanao Sea, Southern Philippines. Trop Life Sci Res 25, 105-115. MFDS (Ministry of Food and Drug Safety). 2017a. The list of food material. Retrieved from http://www.foodsafetykorea. go.kr/portal/safefoodlife/foodmeterial/foodmeterialdb.do? on Oct 27, 2017. MFDS (Ministry of Food and Drug Safety). 2017b. Information of drugs. Retrieved from https://ezdrug.mfds.go.kr/#! CCBAA03F020 on Oct 27, 2017. Min HS and Kim CH. 2006. Interannual variability and longterm trend of coastal sea surface temperature in Korea. Ocean Polar Res 28, 415-423. Moon SK, Kang JY, Kim KD, Kim IS and Jeong BY. 2005. Lipid components of the cultured pearl oyster (Pinctada fucata martensii) in Korea. J Fish Sci Technol 8, 189-194. Moon SK, Lee SJ, Sung NJ, Kim IS and Jeong BY. 2014. Effects of eco-friendly squid Todarodes pacificus liver and patagonian toothfish Dissostichus eleginoides muscle oils on serum lipids and adipose tissues of rats. Korean J Fish Aquat Sci 47, 745-750. http://dx.doi.org/10.5657/kfas.0745. NIFS (National Institute of Fisheries Science). 1994. Commercial Fishes of the Coastal and Offshore Waters in Korea. Yemoonsa, Busan, Korea, 235-236. Özogul W, Özogul F and Alagoz S. 2007. profiles and fat contents of commercially important seawater and freshwater fish species of Turkey: A comparative study. Food Chem 1003, 217-223. https:// doi.org/10.1016/j.foodchem.2006.08.009. Saito H, Yamashiro R, Alasalvar C and Konno T. 1999. Influence of diet on fatty acids of three subtropical fish, subfamily Caesioninae (Caesio diagramma and C. tile) and family Siganidae (Siganus canaliculatus). Lipids 34, 1073-1082. Seong KT, Hwang JD, Han IS, Go WJ, Suh YS and Lee JY. 2010. Characteristic for long-term trends of temperature in the Korean waters. J Kor Soc Mar Envir Saf 16, 353-360. Stowasser G, Pond AW and Collins MA. 2012. trophic markers elucidate resource partitioning within the demersal fish community of South Georgia and Shag Rocks (Southern Ocean). Mar Biol 15, 2299-2310. https://doi. org/10.1007/s00227-012-2015-5. Suh YS, Hwang JD, Pang IC, Han IS, Jo JD and Lee NK. 2011. Long-term variations of sea surface temperature in inshore and offshore waters of Jeju island. Kor J Nat Conserv 5, 135-140. Tocher DF. 2003. Metabolism and functions of lipids and fatty acids in teleost fish. Rev Fish Sci 11, 107-184. http://dx.doi. org/10.1080/713610925. Yazawa K and Kageyama H.1991. Physiological activity of docosahexaenoic acid. Yukagaku 40, 974-978.