ICP-MS用于北京市PM<SUB>2.5</SUB>中铅及其同位素的形态分析

doi:10.3964/j.issn.1000-0593(2009)02-0515-04

摘要
参考文献
相关文章 (15)

全文: PDF (1050 KB)
输出: BibTeX | EndNote (RIS)

摘要：对2005年9月至2006年5月所采集的24份北京市PM_2.5样品进行序列连续提取，分别得到水溶态、脂溶态和不溶态3个分量的铅；在最佳仪器工作条件下，采用电感耦合等离子体质谱(ICP-MS)测定上述各分量中铅的浓度及同位素比值。采用GBW09133考察铅浓度测定的准确度，并用SRM 981标准铅试剂校正质量歧视效应和仪器漂移。结果表明，采用ICP-MS分析大气PM_2.5中不同形态铅浓度及同位素比值的测定数据准确可靠。北京市大气PM_2.5样品中水溶态、脂溶态和不溶态3个分量铅的平均百分含量分别为20.69%，0.32%和78.99%；相应的铅同位素比值²⁰⁶Pb/²⁰⁷Pb的均值分别为1.1526，1.1374和1.2193；其中水溶态和不溶态铅的同位素比值具有统计学差异(p<0.01)。同位素比值的比对结果提示，北京市成人血铅可能源于北京市大气PM_2.5中水溶态铅而非不溶态铅，故大气细颗粒物中水溶态铅对人体健康的威胁更值得注意。

关键词：电感耦合等离子质谱;化学形态分析;铅同位素;PM_2.5

Abstract：Fine particulate matters (PM_2.5) collected in Beijing during a period from September 2005 to May 2006 were studied. Sequential extraction procedures were applied to divide the total lead into three fractions, i.e. water soluble, liposoluble and insoluble lead. Lead concentrations and their isotopes in each fraction were then determined by inductively coupled plasma mass spectrometry (ICP-MS). Lead standard reference GBW 09133 was used to investigate the accuracy of lead concentration determination and SRM 981 was used to correct the mass discrimination and instrumental drift. The obtained results showed that the analytical precision of lead isotope ratios for SRM 981 of seven repeat measurements at lead concentration of 10 ng·mL^-1 came to about 0.34, 0.27 and 0.24 percent for the ²⁰⁶Pb/²⁰⁴Pb, 206Pb/²⁰⁷Pb and ²⁰⁶Pb/²⁰⁸Pb ratios, respectively. In Beijing, the mass concentrations for PM_2.5 and lead of ambient air were 125.56 and 0.415 μg·m^-3 respectively for winter 2005, and 201.6 and 0.475 μg·m^-3 respectively for spring 2006 on average, resembling those published results. It was indicated that the lead in the PM_2.5 existed mainly in insoluble form, which accounted for 78.99%, while water soluble lead and liposoluble lead amount were 20.69% and 0.32%, respectively. The mean values of ²⁰⁶Pb/²⁰⁷Pb ratio for water soluble species and insoluble species were 1.152 6±0.009 3 and 1.219 3±0.009 1 respectively, with a significant difference (Student’s test;p＜0.01) statically. By comparing ²⁰⁶Pb/²⁰⁷Pb ratios between biological specimen and ambient air samples, the ²⁰⁶Pb/²⁰⁷Pb ratios in water soluble fraction coincided very well with those in adult blood, therefore, water soluble lead but not insoluble lead in PM_2.5 may be the potential source of adults blood lead in Beijing. More attention should be paid to the effect of soluble lead in fine particle matters on human health.

Key words：ICP-MS;Speciation analysis;Lead isotopes;Fine particle matters

收稿日期: 2007-11-02 修订日期: 2008-02-22

中图分类号:	O657.3
	X513

通讯作者: 王京宇 E-mail: wjy@bjmu.edu.cn

引用本文:

陈曦¹,王小燕^1,2,刘洋³,张经华³,刘景秀⁴,闫赖赖¹,王京宇^1,2* . ICP-MS用于北京市PM_2.5中铅及其同位素的形态分析[J]. 光谱学与光谱分析, 2009, 29(02): 515-518.
CHEN Xi¹,WANG Xiao-yan^{1, 2},LIU Yang³,ZHANG Jing-hua³,LIU Jing-xiu⁴,YAN Lai-lai¹,WANG Jing-yu^1,2* . Speciation Analysis of Lead and Its Isotopes in Fine Particulate Matters in Beijing by ICP-MS . SPECTROSCOPY AND SPECTRAL ANALYSIS, 2009, 29(02): 515-518.

链接本文:

https://www.gpxygpfx.com/CN/10.3964/j.issn.1000-0593(2009)02-0515-04 或 https://www.gpxygpfx.com/CN/Y2009/V29/I02/515

[1] LIANG Hui-ning, HUANG Rong-zheng, JIANG Yue-ming(梁惠宁，黄荣峥，姜岳明). Chinese Journal of Public Health(中国公共卫生), 2006, 22(1): 116.
[2] TIAN Dong-mei, DENG Gui-chun, ZANG Shu-liang, et al(田冬梅，邓桂春，臧树良，等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2006, 26(12): 2330.
[3] DAI Shu-gui(戴树桂). Advances in Environmental Chemistry(环境化学进展). Beijing：Chemical Industry Press(北京: 化学工业出版社), 2005. 181.
[4] Tessler A, Campbell P G C, Blsson M. Anal. Chem., 1979, 51(7): 844.
[5] SHI Yu-feng, XIE Ming-yong, NIE Shao-ping, et al(施玉峰, 谢明勇, 聂少平, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2007, 27(2): 378.
[6] XIU Guang-li, ZHANG Ai-dong, JIN Qing-xi, et al(修光利，张爱东，金庆西，等). Journal of East China University of Science and Technology(Nature Science Edition)(华东理工大学学报·自然科学版), 2005, 31(4): 468.
[7] PAN Yuan-hai, LIU Xiang-sheng, HE Xiao-qing, et al(潘元海，刘湘生，何小青，等). Chinese Journal of Analytical Chemistry(分析化学), 2005, 33(11): 1560.
[8] WANG Xiao-ping, MA Yi-jin, Mitso itoh(王小平，马以瑾，伊藤光雄). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2005, 25(10): 1703.
[9] RUI Yu-kui, KONG Xiang-bin, QIN Jing(芮玉奎，孔祥斌，秦静). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2007, 27(6): 1201.
[10] ZENG Jing, WANG Xiao-yan, LIU Hu-sheng, et al(曾静, 王小燕, 刘虎生, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2007, 27(2): 374.
[11] Florence T M. Talanta, 1982, 29: 354.
[12] Gleyzes C, Tellier S, Sabrier R, et al. Trac-Trends in Analytical Chemistry, 2002, 21(6-7): 451.
[13] Kersten M, Forstner U. Water Sci. Technol., 1986, 18: 121.
[14] LIU Bing-huan(刘炳寰). Mass Spectroscopy Method and Isotope Analysis(质谱学方法与同位素分析). Beijing：Science Press(北京: 科学出版社), 1983, 7. 19. 329.
[15] ZHU Lai-min, ZHANG Hai-sheng, CHEN Li-qi(朱赖民，张海生，陈立奇). Environmental Science Research(环境科学研究), 2002, 15(1): 27.
[16] CHEN Cheng-xiang, ZHUANG Zhi-xia, LIU Hai-bo, et al(陈成祥，庄峙厦，刘海波，等). Chinese Journal of Analytical Chemistry(分析化学), 2007, 35(1): 103.
[17] Brian Gulsona, Karen Mizon, Michael Korsch, et al. Environmental Research, 2006, 100: 130.
[18] Chen Jianmin, Tan Mingguang, Li Yulan, et al. Atmospheric Environment, 2004, 38: 1191.
[19] LIU Jing-xiu, ZENG Jing, WANG Xiao-yan, et al(刘景秀, 曾静, 王小燕，等). Chinese Journal of Food Hygiene(中国食品卫生杂志), 2007, 19(4): 297.
[20] LI Xian-fang, LIU Xian-de, LI Bing, et al(李显芳, 刘咸德, 李冰, 等). Environmental Science(环境科学), 2006, 27(3): 405.