Abstract:Flaxseed is a kind of biomass with high edible and medical value. It is rich in many kinds of nutrients and mineral elements. China is one of the important producing places of flaxseed. In order to explore the main characteristic constituents of mineral elements and fatty acids in flaxseed, the study of analyzing the mineral elements and fatty acid composition from 10 different regions was carried out. The contents of seventeen kinds of mineral elements in flaxseed were determined by inductively coupled plasma mass spectrometry (ICP-MS). The contents of fatty acids of the flaxseed oil obtained under the same conditions were determined by gas chromatography-mass spectrometer(GC-MS). The principal component analysis(PCA) method was applied to the study of analyzing the mineral elements and fatty acid compositions in flaxseeds. The difference in mineral elements and fatty acids of flaxseed from different regions were discussed. The main characteristic constituents of mineral elements and fatty acids were analyzed. The results showed that K,Sr,Mg,Ni,Co,Cr,Cd,Se,Zn and Cu were the main characteristic constituents of the mineral elements. At the same time, C16∶0,C18∶0,C18∶2,C18∶3,C20∶0 and C20∶1 were the main characteristic constituents of the fatty acids. The combination of ICP-MS, GS-MS and PCA can reveal the characteristics and difference of mineral elements and fatty acids from different regions. The results would provide important theoretical basis for the reasonable and effective utilization of flaxseed.
兴 丽,赵凤敏*,曹有福,王 梅,梅 帅,李少萍,蔡智勇 . 不同产地亚麻籽矿物质元素及脂肪酸组成的主成分分析 [J]. 光谱学与光谱分析, 2014, 34(09): 2538-2543.
XING Li, ZHAO Feng-min*, CAO You-fu, WANG Mei, MEI Shuai, LI Shao-ping, CAI Zhi-yong . Principal Component Analysis of Mineral Elements and Fatty Acids Composition in Flaxseed from Ten Different Regions. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2014, 34(09): 2538-2543.
[1] YANG Jin-e, HUANG Qing-de, HUANG Feng-hong, et al(杨金娥,黄庆德,黄凤洪,等). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报),2013,29(13):270. [2] HU Xiao-jun, LI Qun, XU Guang-ying, et al(胡晓军,李 群,许光映,等). China Oils and Fats(中国油脂),2012,37(12):64. [3] HUANG Zuo-ming,HUANG Xun(黄作明,黄 珣). Studies of Trace Elements and Health(微量元素与健康研究),2010,27(6):58. [4] Zhang Z S, Wang L J, Li D, et al. International Journal of Food Properties,2011,14(6):1286. [5] Oomah, B D. Journal of the Science of Food and Agricultural,2001,81(9):889. [6] Singh K K, Mridula D, Rehal J, et al. Critical Reviews in Food Science and Nutrition,2011,51(3):210. [7] Khan N, Jeong I S, Hwang I M, et al. Food Chemistry,2014,17(3):220. [8] WANG Dao-wu, ZHANG Long, LI Ya-feng, et al(王道武,张 龙,李亚丰,等). Chinese Journal of Analytical Chemistry(分析化学),2008,36(10):1454. [9] ZHANG Xiao-yan, ZHAO Feng-min, XIN Li, et al(张小燕,赵凤敏,兴 丽,等). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报),2013,29(9):276. [10] Ma Z M. The Annals of Statistics,2013,41(2):772. [11] MEI Shuai, ZHAO Feng-min, CAO You-fu, et al(梅 帅,赵凤敏,曹有福,等). Transactions of the Chinese Society of Agricultural Engineering(农业工程学报),2013,29(15):229. [12] ZHANG Shao-pu(张绍璞). Journal of Tianjin University of Science & Technology(天津科技大学学报),2010,25(2):76. [13] LIN Hai-ming, DU Zi-fang(林海明,杜子芳). Statistical Research(统计研究),2013,30(8):25. [14] Zhang Z S, Wang L J, Li D, et al. Separation and Purification Technology, 2008,62(1):192.