铜藻中无机元素的含量分析与食用安全评价

doi:10.16378/j.cnki.1003-1111.19181

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摘要分别运用电感耦合等离子体发射光谱法和电感耦合等离子体质谱法分析2018年10—12月采集于浙江、山东和辽宁沿海海域的铜藻样品中5种常量元素、14种微量元素以及16种稀土元素的含量,分析铜藻中As的形态,以阐明铜藻中无机元素的含量及其分布特征和食用安全性。结果显示,5 种常量元素中,K的平均含量最高,为6.95×10⁴ mg/kg(干质量),其次为Na的平均含量,达3.08×10⁴ mg/kg,而P的平均含量最低,仅有0.15×10⁴ mg/kg;对14种微量元素分析表明,铜藻含有丰富的Fe(889.12～1164.17 mg/kg)和Sr(1001.76～2010.13 mg/kg);Cd和Pb的含量很低,食用风险较低;铜藻中的砷主要以无机砷酸盐As(Ⅴ)形态存在,占总As含量的70%以上,食用风险较高。铜藻中总稀土元素含量为2.77～6.49 mg/kg,其中轻稀土元素的含量约为重稀土元素的2.0～2.5倍。综上,铜藻含有丰富的无机营养元素和稀土元素,具有较高的营养与医药保健价值。

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关键词 ：铜藻, 无机元素, 稀土元素, 食用安全评价

Abstract：Inductively coupled plasma emission spectrometry (ICP) and inductively coupled plasma mass spectrometry (ICP-MS) were used to analyze the contents of 5 kinds of macroelements, 14 kinds of trace elements and 16 kinds of rare elements in seaweed Sargassum horneri samples collected in the coastal waters of Zhejiang, Shandong and Liaoning provinces from October to December 2018 to probe for the form of arsenic and the contents and distribution characteristics of inorganic elements and their food safety in the seaweed. Results showed that 5 macroelements were detected in the sea weed, with the maximal average concentration of 6.95×10⁴ (dry weight) in K, followed by Na (average level of 3.08×10⁴ mg/kg) and the minimal in P (0.15×10⁴ mg/kg). Analysis of 14 microelements revealed that the seaweed was rich in Fe (889.12—1164.17 mg/kg) and Sr (1001.76—2010.13 mg/kg), with very low concentration of Cd and Pb, thus low risk to the consumer. The inorganic arsenate (AsⅤ) was shown to be the main arsenic type in the seaweed, accounting for 70% in the total arsenic for all samples, and very high food safety risk to the consumer. The Concentration of the total rare earth elements in the seaweed was 2.77—6.49 mg/kg, and the concentration of the light rare earth elements was about 2.0—2.5 times of the heavy rare earth elements. In conclusion, the brown seaweed was rich in helpful inorganic elements and rare earth elements, which made the seaweed with a high nutritional value and high medical health care function. The findings provided valuable information for the further development and utilization of seaweed S. horneri in the food, medical health care, feed and other fields.

Key words： Sargassum horneri inorganic element rare earth element food safety assessment

收稿日期: 2019-08-23

PACS:

S917.3

基金资助:农业农村部现代农业产业技术体系专项资金资助项目(CARS-50);中国水产科学研究院基本科研业务费资助项目(2020TD71).

通讯作者: 王联珠(1962—),女,研究员;研究方向:水产品质量安全.E-mail:wanglz@ysfri.ac.cn.

作者简介: 赵艳芳(1979—)女,副研究员;研究方向:水产品质量安全.E-mail:zhaoyf@ysfri.ac.cn.

引用本文:

赵艳芳, 尚德荣, 康绪明, 翟毓秀, 王联珠, 盛晓风, 丁海燕. 铜藻中无机元素的含量分析与食用安全评价[J]. 水产科学, 2021, 40(1): 109-115.
ZHAO Yanfang, SHANG Derong, KANG Xuming, ZHAI Yuxiu, WANG Lianzhu, SHENG Xiaofeng, DING Haiyan. Analysis of Inorganic Elements and Food Safety in Seaweed Sargassum horneri. 水产科学, 2021, 40(1): 109-115.

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http://www.shchkx.com/CN/10.16378/j.cnki.1003-1111.19181 或 http://www.shchkx.com/CN/Y2021/V40/I1/109

[1]胡斌,宋理平,冒树泉,等.铜藻的营养成分分析与营养学评价[J].广东海洋大学学报,2015,35(6):100-104.
[2]Moroney N C, O′Grady M N, O′Doherty J V, et al.Effect of a brown seaweed (Laminaria digitata) extract containing laminarin and fucoidan on the quality and shelf-life of fresh and cooked minced pork patties [J]. Meat Science,2013,94(3):304-311.
[3]Murakami K, Yamaguchi Y, Noda K, et al. Seasonal variation in the chemical composition of a marine brown alga, Sargassum horneri (Turner) C. Agardh [J]. Journal of Food Composition and Analysis,2011,24(2):231-236.
[4]Liu L, Heinrich M, Myers S, et al. Towards a better understanding of medicinal uses of the brown seaweed Sargassum in traditional Chinese medicine: a phytochemical and pharmacological review [J]. Journal of Ethnopharmacology,2012,142(3):591-619.
[5]Kim S Y, Joo H G. Evaluation of adjuvant effects of fucoidan for improving vaccine efficacy [J]. Journal of Veterinary Science,2015,16(2):145-150.
[6]Kadam S U, Tiwari B K, O′Donnell C P. Application of novel extraction technologies for bioactives from marine algae [J]. Journal of Agricultural and Food Chemistry,2013,61(20):4667-4675.
[7]彭雍博,汪秋宽,任丹丹,等.铜藻主要活性物质的提取及其功能[J].水产科学,2017,36(4):531-537.
[8]Komatsu T, Fukuda M, Mikami A, et al. Possible change in distribution of seaweed, Sargassum horneri, in northeast Asia under A2 scenario of global warming and consequent effect on some fish [J]. Marine Pollution Bulletin,2014,85(2):317-324.
[9]蒋日进,章守宇,毕远新,等.枸杞岛海藻场小型无脊椎动物的食物来源 [J]. 水产学报,2015,39(10):1487-1498.
[10]吕芳,詹冬梅,郭文,等.重金属镉对铜藻生长及其生物活性成分积累的影响 [J]. 大连海洋大学学报, 2017,32(6):664-670.
[11]Abé H, Komatsu T, Kokubu Y, et al. Invertebrate fauna associated with floating Sargassum horneri (Fucales: Sargassaceae) in the East China Sea [J]. Species Diversity,2013,18:75-85.
[12]Ren J R, Yang R, He Y Y, et al. Genetic variation of Sargassum horneri populations detected by inter-simple sequence repeats [J]. Genetics and Molecular Research,2015,14(1):619-625.
[13]Shan T, Pang S, Li J, et al. Isolation and characterization of eight novel microsatellite loci from the brown alga Sargassum horneri [J]. Journal of Applied Phycology,2015,27(6):2419-2421.
[14]杨承虎,蔡景波,张鹏,等.南麂列岛大型海藻重金属元素含量特征分析[J].海洋环境科学,2017,36(3):372-378,384.
[15]中国国家标准化管理委员会. GB 5009.268—2016,食品安全国家标准食品中多元素的测定[S].北京:中国标准出版社,2016:1-14.
[16]中国国家标准化管理委员会. GB 5009.94—2012,食品安全国家标准植物性食品中稀土元素的测定[S]. 北京:中国标准出版社,2012:1-7.
[17]中国国家标准化管理委员会. GB/T 2372—2009,食品中无机砷的测定液相色谱—电感耦合等离子体质谱法[S].北京:中国标准出版社,2009:1-2.
[18]曹琰,段金廒,郭建明,等.不同产地海蒿子、羊栖菜中无机元素的含量分析与评价[J].科技导报,2014,32(15):15-24.
[19]王其东,付晓婷,许加超,等.铜藻海藻酸钠复合鲅鱼糜保水剂的制作优化[J].中国渔业质量与标准,2018,8(2):9-16.
[20]姚勇,孟庆勇,揭新明.中国南海22种海藻微量元素分析[J].微量元素与健康研究,2009,26(3):47-49.
[21]严小军,范晓,永田忠博.用X射线分析显微镜对海藻元素的研究Ⅰ.海藻的X射线荧光光谱[J].海洋科学集刊,2000,42(1):172-181.
[22]中国国家标准化管理委员会. GB 2762—2017,食品安全国家标准食品中污染物限量[S].北京:中国标准出版社,2017:1-5.
[23]李晓庆,王联珠,宋春丽,等.对欧盟关于水产品中重金属限量规定的跟踪研究[J].中国渔业质量与标准,2013,3(3):21-33.
[24]李冰茹,杜远芳,王北洪,等.食品中总铬和铬形态分析的前处理技术概述 [J].食品安全质量检测学报,2018,9(9):2056-2062.
[25]尚德荣,赵艳芳,张继红,等.海藻中铝形态分析技术[J].渔业科学进展,2013,34(5):112-118.
[26]Shang D R, Zhao Y F, Zhai Y X, et al. Development of a new method for analyzing free aluminum ions (Al³⁺) in seafood using HPLC-ICP-MS[J]. Chinese Science Bulletin,2013,58(35):4437-4442.
[27]尚德荣,宋怿,许玉艳,等.食品中铝的风险评估研究进展[J].中国渔业质量与标准,2013,3(1):6-13.
[28]lejkovec Z, Kpolna E, Ipolyi I, et al. Arsenosugars and other arsenic compounds in littoral zone algae from the Adriatic Sea [J]. Chemosphere,2006,63(7):1098-1105.
[29]Zhao Y, Wu J, Shang D, et al.Subcellular distribution and chemical forms of cadmium in the edible seaweed, Porphyra yezoensis [J]. Food Chemistry,2015,168(1):48-54.
[30]赵艳芳,尚德荣,宁劲松,等.水产品中不同形态砷化合物的毒性研究进展[J].海洋科学,2009,33(9):92-96.
[31]严小军,范晓,侯小琳.海藻中稀土元素的初步研究[J].海洋与湖沼,1999,30(5):558-563.
[32]赵艳芳,尚德荣,翟毓秀,等.应用ICP-MS法研究我国三种经济海藻中稀土元素含量[J].光谱学与光谱分析,2015,35(11):3196-3199.