Analysis and Evaluation of Texture and Nutritional Value of Four Kinds of Ready-to-eat Sea Cucumber Products

WANG Yifan; ZHAO Ying; SHI Jianing; FAN Xinru; ZHAO Qiancheng; ZHANG Yu; LI Meng

doi:10.13386/j.issn1002-0306.2023050156

Volume 45 Issue 8

Apr. 2024

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Science and Technology of Food Industry > 2024 > 45(8): 263-272. > DOI: 10.13386/j.issn1002-0306.2023050156

WANG Yifan, ZHAO Ying, SHI Jianing, et al. Analysis and Evaluation of Texture and Nutritional Value of Four Kinds of Ready-to-eat Sea Cucumber Products[J]. Science and Technology of Food Industry, 2024, 45(8): 263−272. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023050156.

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Analysis and Evaluation of Texture and Nutritional Value of Four Kinds of Ready-to-eat Sea Cucumber Products

1.
College of Food Science and Engineering, Dalian Ocean University, Dalian 116023, China
2.
Guangdong Guanzhan Nutrition and Health Technology Co., Ltd., Guangzhou 510000, China

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Received Date: May 14, 2023
Available Online: January 31, 2024

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Abstract

Abstract

This work aimed to explore the difference of quality among commercial ready-to-eat sea cucumber products. The sensory, texture, chemical composition, nutritional quality and digestibility of four common commercial sea cucumber from Dalian (sea cucumber with high moisture content (HW-DLS), seasoned sea cucumber with low moisture content (FLW-DLS), sea cucumber with low moisture content (LW-DLS)) or Fujian (sea cucumber with high moisture content (HW-FJS)) were determined. Furthermore, principal component analysis (PCA) was applied to evaluate comprehensive quality of products. The results from sensory analysis revealed that the colour appearance of all sample were good. FLW-DLS had the most acceptable taste characteristics. There was a difference of texture characteristics in samples. The ash, total carbohydrate, and salt contents of FLW-DLS were significantly higher than those of other sea cucumbers (P<0.05), with 2.16%, 1.7%, and 1.3%, respectively. Protein content of FLW-DLS and LW-DLS was higher than that of other sea cucumbers. In addition, all sea cucumber samples had the recommended essential amino acid/total amino acid, lysine/arginine, and n-6/n-3 ratio for good health status of humans and very low level of atherogenic and thrombogenic indices. FLW-DLS and LW-DLS showed a significantly higher content in saponins with 8.64 mg/kg and 8.49 mg/kg, respectively. The highest content of taurine and protein in in vitro digestion supernatant was also found in FLW-DLS with 2.28 mg/100 g and 33.58 g/100 g. Moreover, principal component analysis based on nutritional indicators showed significant differences in nutritional composition of samples, the nutritional value from high to low followed by FLW-DLS, HW-FJS, LW-DLS and HW-DLS. In conclusion, the commercial ready-to-eat sea cucumber products had a nutritional value perfectly compatible with nutritious and healthy diets. The seasoned sea cucumber with low moisture content possessed higher nutritional values and better taste characteristics than other sea cucumber products.
- sea cucumber,
- texture,
- nutrient composition,
- principal component analysis,
- comprehensive evaluation

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References

[1]	LOO K P, MAT D M. Jewel of the seabed:Sea cucumbers as nutritional and drug candidates[J]. International Journal of Food Sciences and Nutrition,2012,63(5):616−636. doi: 10.3109/09637486.2011.641944
[2]	杨林彤, 黄栋, 周建华, 等. 海参营养价值与主要功效成分的研究进展[J]. 食品科技,2022,47(2):168−172. [YANG L T, HUANG D, ZHOU J H, et al. Research progress on nutritional value and main functional components of sea cucumber[J]. Food Science and Technology,2022,47(2):168−172.] YANG L T, HUANG D, ZHOU J H, et al. Research progress on nutritional value and main functional components of sea cucumber[J]. Food Science and Technology, 2022, 47（2）: 168−172.
[3]	YAACOB H, KIM K, SHAHIMI M, et al. Malaysian sea cucumber (Gamat):A prospect in health food and therapeutic[J]. Proceedings of the Asian Food Technology Seminar, 2024.
[4]	农业农村部编制. 中国渔业统计年鉴[M]. 北京:中国农业出版社, 2021:23. [Ministry of Agriculture and Rural Affairs. China Fishery Statistical Yearbook[M]. Beijing:China Agricultural Press, 2021:23.] Ministry of Agriculture and Rural Affairs. China Fishery Statistical Yearbook[M]. Beijing: China Agricultural Press, 2021: 23.
[5]	LI M, GAO Y, QI Y X, et al. Assessment of the nutritional value of cultured sea cucumber ( Apostichopus japonicus)[J]. Journal of Aquatic Food Product Technology,2021(9):1−12.
[6]	FERDOUSE F. World markets and trade flows of sea cucumber/bechedemer[J]. Korea, 2004.
[7]	JI H M, KIM M J, DONG H C, et al. Drying characteristics of sea cucumber (Stichopus japonicas Selenka) using far infrared radiation drying and hot air drying[J]. Journal of Food Processing & Preservation, 2014, 38.
[8]	常耀光, 刘艳艳, 石菲菲, 等. 海参在加工过程中的组分与食品结构变化[J]. 水产学报,2022,46(7):1129−1142. [CHANG Y G, LIU Y Y, SHI F F, et al. Changes in composition and food structure of sea cucumber during processing[J]. Journal of Fisheries of China,2022,46(7):1129−1142.] CHANG Y G, LIU Y Y, SHI F F, et al. Changes in composition and food structure of sea cucumber during processing[J]. Journal of Fisheries of China, 2022, 46（7）: 1129−1142.
[9]	LI M, QI Y X, MI L, et al. Effects of processing method on chemical compositions and nutritional quality of ready-to-eat sea cucumber (Apostichopus japonicus)[J]. Food Science & Nutrition, 2019.
[10]	白颖, 冯丁丁, 浦源, 等. 海参低温贮藏过程中品质与理化性质的变化[J]. 中国食品学报,2021,21(1):208−214. [BAI Y, FENG D D, PU Y, et al. Quality and physicochemical properties of sea cucumber during low temperature storage[J]. Journal of Chinese Institute of Food Science and Technology,2021,21(1):208−214.] BAI Y, FENG D D, PU Y, et al. Quality and physicochemical properties of sea cucumber during low temperature storage[J]. Journal of Chinese Institute of Food Science and Technology, 2021, 21（1）: 208−214.
[11]	穆琳. 加工对海参营养和功能成分的研究[D]. 大连:大连海洋大学, 2016. [MU L. Studies of processing method on nutritional andfunctional compositions of instant sea cucumber products[D]. Dalian:Dalian Ocean University, 2016.] MU L. Studies of processing method on nutritional andfunctional compositions of instant sea cucumber products[D]. Dalian: Dalian Ocean University, 2016.
[12]	ULBRICHT T L, SOUTHGATE D A. Coronary heart disease:seven dietary factors[J]. The Lancet, 1991, 338(8773):985-992.
[13]	农业农村部. 转基因生物及其产品食用安全检测模拟胃液和模拟肠液中外源蛋白质消化稳定性试验方法[S]. 北京:中国农业出版社, 2021:2. [Ministry of Agriculture and Rural Affairs. Food safety testing of genetically modified organisms and their products-Test method for the digestion stability of exogenous proteins in simulated gastric and intestinal fluids[S]. Beijing:China Agricultural Press, 2021:2.] Ministry of Agriculture and Rural Affairs. Food safety testing of genetically modified organisms and their products-Test method for the digestion stability of exogenous proteins in simulated gastric and intestinal fluids[S]. Beijing: China Agricultural Press, 2021: 2.
[14]	葛小通, 王红丽, 尹明雨, 等. 冷冻即食海参质构特性指标的相关性研究[J]. 中国食品学报,2023,23(1):326−334. [GE X T, WANG H L, YIN M Y, et al. Studies on correlation of texture properties of frozen instant sea cucumber[J]. Journal of Chinese Institute of Food Science and Technology,2023,23(1):326−334.] GE X T, WANG H L, YIN M Y, et al. Studies on correlation of texture properties of frozen instant sea cucumber[J]. Journal of Chinese Institute of Food Science and Technology, 2023, 23（1）: 326−334.
[15]	郑明静, 周美龄, 陈妮, 等. 超高压处理对海参组织结构及品质影响的研究[J]. 食品工业科技,2016,37(4):187−191,210. [ZHENG M J, ZHOU M L, CHEN N, et al. Effect of ultra-high pressure treatment on tissue structure and quality of sea cucumber[J]. Science and Technology of Food Industry,2016,37(4):187−191,210.] ZHENG M J, ZHOU M L, CHEN N, et al. Effect of ultra-high pressure treatment on tissue structure and quality of sea cucumber[J]. Science and Technology of Food Industry, 2016, 37（4）: 187−191,210.
[16]	郝梦甄, 胡志和. 超高压和盐渍泡发处理海参的质构和功能成分比较研究[J]. 食品科学,2013,34(5):115−119. [HAO M Z, HU Z H. Comparative effects of UHP and salt soaking on the texture and functional composition of sea cucumber ( Stichopus japonicus)[J]. Food Science,2013,34(5):115−119.] HAO M Z, HU Z H. Comparative effects of UHP and salt soaking on the texture and functional composition of sea cucumber （Stichopus japonicus）[J]. Food Science, 2013, 34（5）: 115−119.
[17]	ZDZISTAW E. S, DORIAN N. S, DAVID H. The role of collagen in the quality and processing of fish[J]. Critical Reviews in Food Science and Nutrition,1984,20(4):301−343. doi: 10.1080/10408398409527393
[18]	汪子涵, 安俊文, 郑杰, 等. 不同泡发方式对海参品质特性的影响[J]. 中国食品添加剂,2023,34(4):135−141. [WANG Z H, AN J W, ZHENG J, et al. Effects of different soaking methods on the quality characteristics of dried seacucumber[J]. China Food Additives,2023,34(4):135−141.] WANG Z H, AN J W, ZHENG J, et al. Effects of different soaking methods on the quality characteristics of dried seacucumber[J]. China Food Additives, 2023, 34（4）: 135−141.
[19]	ZHONG Y, AHMAD K M, FEREIDOON S. Compositional characteristics and antioxidant properties of fresh and processed sea cucumber ( Cucumaria frondosa)[J]. Journal of agricultural and food chemistry,2007,55(4):1188−1192. doi: 10.1021/jf063085h
[20]	刘小芳. 刺参营养成分的地域性差异分析及其磷脂的活性研究[D]. 青岛:中国海洋大学, 2014. [LIU X F. Study of regional differences in nutrient compositionsand bioactivities of phospholipids in sea cucumber (Apostichopus japonicus)[D]. Qingdao:Ocean University of China, 2014.] LIU X F. Study of regional differences in nutrient compositionsand bioactivities of phospholipids in sea cucumber （Apostichopus japonicus）[D]. Qingdao: Ocean University of China, 2014.
[21]	FUKUNAGA T, MATSUMOTO M, MURAKAMI T, et al. Effects of soaking conditions on the texture of dried sea cucumber[J]. Fisheries Science,2004,70(2):319−325. doi: 10.1111/j.1444-2906.2003.00807.x
[22]	李银塔, 李钰金, 陈英乡, 等. 即食鲜海参生产工艺研究[J]. 肉类研究,2010(6):78−81. [LI Y T, LI Y J, CHEN Y X, et al. Production process of instant fresh sea cucumber[J]. Meat Research,2010(6):78−81.] LI Y T, LI Y J, CHEN Y X, et al. Production process of instant fresh sea cucumber[J]. Meat Research, 2010（6）: 78−81.
[23]	HAIDE M S, SULTANA R, JAMIL K, et al. A study on proximate composition, amino acid profile, fatty acid profile and some mineral contents in two species of sea cucumber[J]. Journal of Animal and Plant Sciences,2015,25(1):168−175.
[24]	IKEDA A, IMAIZUMI K, SUGANO M, et al. Interaction of dietary protein and fat on plasma cholesterol and amino acid levels, fatty acid desaturation, and prostacyclin production in exogenous hypercholesterolemic rats[J]. Bioscience, Biotechnology, and Biochemistry, 2014, 57(11):1867-1872.
[25]	郗亚凡, 林海生, 曹文红, 等. 三种南海礁栖海参体壁营养成分分析[J]. 广东海洋大学学报,2023,43(2):113−119. [XI Y F, LIN H S, CAO W H, et al. Analysis of nutritional components in the body wall of three reef-dwelling seacucumbers in the south China sea[J]. Journal of Guangdong Ocean University,2023,43(2):113−119.] XI Y F, LIN H S, CAO W H, et al. Analysis of nutritional components in the body wall of three reef-dwelling seacucumbers in the south China sea[J]. Journal of Guangdong Ocean University, 2023, 43（2）: 113−119.
[26]	SUGANO M, ISHIWAKI N, NAKASHIMA K. Dietary protein-dependent modification of serum cholesterol level in rats. Significance of the arginine/lysine ratio[J]. Annals of Nutrition & Metabolism,1984,28(3):192−199.
[27]	WEN J, HU C Q, FAN S G. Chemical composition and nutritional quality of sea cucumbers[J]. Journal of the Science of Food and Agriculture,2010,90(14):2469−2474. doi: 10.1002/jsfa.4108
[28]	AYDN M, SEVGILI H, TUFAN B, et al. Proximate composition and fatty acid profile of three different fresh and dried commercial sea cucumbers from Turkey[J]. International Journal of Food Science & Technology,2015,46(3):500−508.
[29]	WANG J H, WANG X X, LI J T, et al. Effects of dietary coconut oil as a medium-chain fatty acid source on performance, carcass composition and serum lipids in male broilers[J]. Asian-Australasian Journal of Animal Sciences,2015,28(2):223−230.
[30]	刘茜, 孙剑锋, 孟淑静, 等. 不同海参产品中化学物质、氨基酸、脂肪酸和重金属组成对比研究[J]. 食品科技,2016,41(11):133−139. [LIU Q, SUN J F, MENG S J, et al. Analysis on chemical, amino acid, fatty acid and heavy metal composition of different sea cucumber ( Stichopus japonicus) products[J]. Food Science and Technology,2016,41(11):133−139.] LIU Q, SUN J F, MENG S J, et al. Analysis on chemical, amino acid, fatty acid and heavy metal composition of different sea cucumber （Stichopus japonicus） products[J]. Food Science and Technology, 2016, 41（11）: 133−139.
[31]	袁义琼. 玉足海参多糖对大鼠高脂血症的缓解作用及机制研究[D]. 海口:海南大学, 2020. [YUAN Y Q. The alleviating effect and themechanism of Holothuria leucospilota polysaccharide on hyperlipidemia in rats[D]. Haikou:Hainan University, 2020.] YUAN Y Q. The alleviating effect and themechanism of Holothuria leucospilota polysaccharide on hyperlipidemia in rats[D]. Haikou: Hainan University, 2020.
[32]	白晓琳, 薄钰莹, 丁宁, 等. 南极磷虾油、鱼油与花生四烯酸油对骨质疏松症小鼠脂质代谢的影响[J]. 食品科学,2022,43(17):131−137. [BAI X L, BO Y Y, DING N, et al. Effects of antarctic krill oil, fish oil and arachidonic acid-enriched oil on lipid metabolism in osteoporotic mice[J]. Food Science,2022,43(17):131−137.] BAI X L, BO Y Y, DING N, et al. Effects of antarctic krill oil, fish oil and arachidonic acid-enriched oil on lipid metabolism in osteoporotic mice[J]. Food Science, 2022, 43（17）: 131−137.
[33]	朱玉婕, 田迎樱, 戴宇峰, 等. 海参磷脂型EPA对血清及肝脏脂肪酸组成的改善作用[J]. 中国海洋药物,2018,37(2):45−51. [ZHU Y J, TIAN Y Y, DAI Y F, et al. The effects of EPA-enriched phosphatidylcholine from sea cucumber on the fatty acid composition of serum and liver[J]. Chinese Journal of Marine Drugs,2018,37(2):45−51.] ZHU Y J, TIAN Y Y, DAI Y F, et al. The effects of EPA-enriched phosphatidylcholine from sea cucumber on the fatty acid composition of serum and liver[J]. Chinese Journal of Marine Drugs, 2018, 37（2）: 45−51.
[34]	CHRISTINA C R, MERCEDES G-W, HUGO P, et al. A first glance into the nutritional properties of the sea cucumber Parastichopus regalis from the Mediterranean Sea (SE Spain)[J]. Natural product research,2018,32(1):116−120. doi: 10.1080/14786419.2017.1331224
[35]	杨立刚, 宋志秀, 曹卫鑫, 等. 不同n-6/n-3脂肪酸构成对小鼠心血管疾病危险因素的影响[J]. 卫生研究,2016,45(3):436−441. [YANG L G, SONG Z X, CAO W X, et al. Effects of diets with different n-6/n-3 fatty acids on cardiovascular risk factors in mice fed high-fat diets[J]. Journal of Hygiene Research,2016,45(3):436−441.] YANG L G, SONG Z X, CAO W X, et al. Effects of diets with different n-6/n-3 fatty acids on cardiovascular risk factors in mice fed high-fat diets[J]. Journal of Hygiene Research, 2016, 45（3）: 436−441.
[36]	丁昊翔, 唐美君, 姜晓东, 等. 中国主要产地“六月黄”中华绒螯蟹的营养品质比较[J]. 中国水产科学,2022,29(7):1052−1063. [DING H X, TANG M J, JIANG X D, et al. Comparative study of the nutritional quality of outseason crab at lunar June ( Eriocheir sinensis) from major Chinese production areas[J]. Journal of Fishery Sciences of China,2022,29(7):1052−1063.] DING H X, TANG M J, JIANG X D, et al. Comparative study of the nutritional quality of outseason crab at lunar June （Eriocheir sinensis） from major Chinese production areas[J]. Journal of Fishery Sciences of China, 2022, 29（7）: 1052−1063.
[37]	金洪宇, 李雷, 覃东立, 等. 巨须裂腹鱼肌肉营养成分分析[J]. 中南农业科技,2023,44(1):58−61,8. [JIN H Y, LI L, TAN D L, et al. Analysis of nutrient composition in the muscle of Macrocephalus giganteus[J]. South-central Agricultural Science and Technology,2023,44(1):58−61,8.] JIN H Y, LI L, TAN D L, et al. Analysis of nutrient composition in the muscle of Macrocephalus giganteus[J]. South-central Agricultural Science and Technology, 2023, 44（1）: 58−61,8.
[38]	巨盛楠, 徐慧静, 王玉明, 等. 海参皂苷 HolothurinA和 EchinosideA对肥胖小鼠尿酸代谢的影响[J]. 食品工业科技,2021,42(21):385−391. [JU S N, XU H J, WANG Y M, et al. Effects of Holothurin A and Echinoside A from sea cucumber on uric acid metabolism in obese mice[J]. Science and Technology of Food Industry,2021,42(21):385−391.] JU S N, XU H J, WANG Y M, et al. Effects of Holothurin A and Echinoside A from sea cucumber on uric acid metabolism in obese mice[J]. Science and Technology of Food Industry, 2021, 42（21）: 385−391.
[39]	王寿权, 员冬玲, 尹凤交, 等. 海参及其加工废液基本化学成分分析及蛋白质营养评价[J]. 食品研究与开发,2019,40(14):150−154. [WANG S Q, YUAN D L, YIN F J, et al. Evaluation and analysis of nutritional composition of sea cucumber and its waste liquid[J]. Food Research and Development,2019,40(14):150−154.] WANG S Q, YUAN D L, YIN F J, et al. Evaluation and analysis of nutritional composition of sea cucumber and its waste liquid[J]. Food Research and Development, 2019, 40（14）: 150−154.
[40]	MEHDI O M, REZA H, VAHID G, et al. Taurine treatment provides neuroprotection in a mouse model of manganism[J]. Biological Trace Element Research,2019,190(2):384−395. doi: 10.1007/s12011-018-1552-2
[41]	杨兰苹, 郑立勇, 饶煜, 等. 海参内脏的活性成分、保健功能与开发研究进展[J]. 食品安全质量检测学报,2018,9(10):2426−2432. [YANG L P, ZHENG L Y, RAO Y, et al. Research progress of active components, health function and development of sea cucumber viscera[J]. Journal of Food Safety & Quality,2018,9(10):2426−2432.] YANG L P, ZHENG L Y, RAO Y, et al. Research progress of active components, health function and development of sea cucumber viscera[J]. Journal of Food Safety & Quality, 2018, 9（10）: 2426−2432.
[42]	徐文思, 杨祺福, 杨明毅, 等. 中华草龟蛋营养成分及消化特性研究[J]. 食品与发酵工业,2024,50(4):93-101. [XU W S, YANG Q F, YANG M Y, et al. Study on nutrition and digestion properties of Mauremys reevesii eggs[J]. Food and Fermentation Industries, 2024,50(4):93-101.] XU W S, YANG Q F, YANG M Y, et al. Study on nutrition and digestion properties of Mauremys reevesii eggs[J]. Food and Fermentation Industries, 2024, 50（4）: 93-101.
[43]	秦力悦, 石萍萍, 李荣辉, 等. 基于主成分分析和聚类分析的烘烤类澳洲坚果果仁综合品质评价[J]. 食品工业科技,2023,44(18):331−341. [QIN L Y, SHI P P, LI R H, et al. Comprehensive quality evaluation of roasted kernels in macadamia nuts basedon principal component analysis and cluster analysis[J]. Science and Technology of Food Industry,2023,44(18):331−341.] QIN L Y, SHI P P, LI R H, et al. Comprehensive quality evaluation of roasted kernels in macadamia nuts basedon principal component analysis and cluster analysis[J]. Science and Technology of Food Industry, 2023, 44（18）: 331−341.