光谱学与光谱分析 |
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Application of ICP-MS/ICP-AES to the Detection of Wholesome Elements and Heavy Metals in Soybean from Northeastern China |
YAN Ping-mei1,2,WANG Wen-ya3,RUI Yu-kui4*,ZHANG Fu-suo4,JIN Yin-hua1 |
1. College of Food Science and Nutritional Engineering,China Agricultural University,Beijing 100083,China 2. Taiyuan Normal College,Taiyuan 030012,China 3. College of Life Science and Technology,Beijing University of Chemical Technology,Beijing 100029,China 4. College of Resource and Environment,China Agricultural University,Beijing 100094,China |
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Abstract With the rapid development of transgenic plant,the protection of species is becoming more and more important. The contents of wholesome elements and heavy metals in ten soybean species from northeastern China were studied by ICP-MS/CIP-AES to detect the heavy metals and microelements. The results showed that the Northeastern soybean contained many elements necessary to human health,the sequence of macroelements (higher than μg·g-1) was K>P>Mg>Ca>Fe>Rb>Mn≈Zn>Si≈Na≈Al≈Ba≈Ni≈Cu,and the most important is that the contents of Fe,Mn and Zn range from 20 to 80 μg·g-1,which are important to human health. Besides the microelements,the contents of heavy metals (As,Cr,Pb and Cd) are also the important standard to identify the quality of farm produce,and the results showed that northeastern soybean contained little heavy metals except Cr (near 200 ng·g-1). All the data showed that northeastern soybean accords with the national hygiene standards,but the protection should be strengthened.
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Received: 2006-05-10
Accepted: 2006-09-18
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Corresponding Authors:
RUI Yu-kui
E-mail: ruiyukui@163.com
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Cite this article: |
YAN Ping-mei,WANG Wen-ya,RUI Yu-kui, et al. Application of ICP-MS/ICP-AES to the Detection of Wholesome Elements and Heavy Metals in Soybean from Northeastern China[J]. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2007, 27(08): 1629-1631.
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URL: |
https://www.gpxygpfx.com/EN/Y2007/V27/I08/1629 |
[1] ZHANG Xiu-juan,YANG Chen-li(张秀娟,杨晨利). Journal of Henan University of Science and Technology(Agricultural Science)(河南科技大学学报·农学版),2004,24(1): 72. [2] WANG Xiu-rong,LIAO Hong,HE Yong,et al(王秀荣,廖 红,何 勇,等). Journal of South China Agricultural University(华南农业大学学报),2006,27(3): 9. [3] LIU Li,JIN Hong,XU Zhi-qin,et al(刘 丽,金 宏,许志勤,等). Acta Nutrimenta Sinica(营养学报),2006,28(4): 311. [4] ZHANG Zhuo-yong,CHEN Hang-ting,WANG Dan,et al(张卓勇,陈杭亭,王 丹,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2002,22(4): 673. [5] RUI Yu-kui,GUO Jing,HUANG Kun-lun,et al(芮玉奎,郭 晶,黄昆仑,等). Spectroscopy and Spectral Analysis(光谱学与光谱分析),2007,27(4): 796. [6] SHAN Zhen-fen(单振芬). Studies of Trace Elements and Health(微量元素与健康研究),2006,23 (3): 66. [7] ZHANG Qiu-ju(张秋菊). Northern Horticulture(北方园艺),2004,(6): 56. [8] LU Wei,WANG Yan-hong,ZHAO Chang,et al(鲁 伟,王艳红,赵 畅,等). Bulletin of Biology(生物学通报),2003,38(9): 17. [9] CHENG Wang-da,YAO Hai-gen,WU Wei,et al(程旺大,姚海根,吴 伟,等). Review of China Agricultural Science and Technology(中国农业科技导报),2005,7(4): 51. |
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