广州不同季风期近地面大气气溶胶中7Be与持久性有机污染物的同步观测
Seasonal variations of beryllium-7 and typical POPs in aerosols from near-surface atmosphere in Guangzhou, China
查看参考文献28篇
文摘
|
2006年8月--2007年7月,在广州市天河区以每周采集2~3天的采样频率连续12个月采集近地面大气气溶胶样品,同步测定近地面气溶胶中7Be和有机氯农药(OCPs),多氯联苯(PCBs),多溴联苯醚(PBDEs)等持久性有机污染物的浓度值.7Be浓度全年平均值为2.59 mBq/m3,最高值出现在5月(8.5 mBq/m3),最低值出现在8月底--9月初(0.07 mBq/m3).冬季和春季为7Be浓度值较高的季节,夏季和秋季浓度值较低.在2月份--4月份期间,7Be可能受到"春季泄漏"现象的影响.∑OCPs,∑33PCBs和∑31PBDEs年平均浓度分别为345.6 pg/m3,317.6 pg/m3和609.0 pg/m3.广州市近地面大气气溶胶中7Be与POPs随时间变化的趋势既有共性部分又存在差异.在夏季,秋季和初冬季7Be与∑PCBs和∑PBDEs的相关性则较好,相关系数r分别为0.9784和0.9006(p=0.01).OCPs与PCBs和PBDEs的时间变化曲线完全不同,可能是OCPs与PCBs和PBDEs的来源不同以及物理化学性质差异较大,受大气气团的影响不同所致 |
其他语种文摘
|
Near-surface atmospheric aerosol samples were collected at sampling frequencies of 2-3 d per week for one year from August 2006 to August 2007 at a low latitude station in Tianhe District, Guangzhou, Guangdong Province of southern China. The samples were analyzed for cosmogenic nuclide 7Be and persistent organic pollutants organochlorine pesticides(OCPs), polychlorinated biphenyls(PCBs), and polybrominated diphenyl ethers(PBDEs).The annual average 7Be concentration was 2.59 mBq/m3, with the maximum occurred in May(8.5 mBq/m3) and minimum in late August and early September(0.07 mBq/m3). Winter and Spring were the seasons in which the 7Be concentrations were higher while summer and autumn were the lower 7Be seasons. Spring peaks in 7Be in the near-surface atmospheric aerosols may have associated with the "spring discharge" episode. The annual average ∑OCPs concentration was 345.6 pg/m3,∑33PCBs 317.6 pg/m3 and ∑31PBDEs 609.0 pg/m3.The variation trends in the time-series of 7Be,OCPs,PCBs, and PBDEs in near-surface atmospheric aerosols showed both common features and differences. Significant correlations(r=0.9784 or 0.9006.respectively,p=0.01) were observed between the monthly average 7Be concentrations and those of ∑PCBs and ∑PBDEs in summer, autumn, and early winter. The difference between the seasonal variation features of OCPs and PCBs(and PBDEs) could be attributed to the different source functions and physical-chemical properties which could control the behaviors of these compounds in air-aerosol partitions as well as atmospheric transportation |
来源
|
地球化学
,2011,40(1):72-82 【核心库】
|
关键词
|
7Be
;
大气气溶胶
;
持久性有机污染物
;
东亚季风
;
广州市
|
地址
|
1.
中国科学院广州地球化学研究所, 国家地质实验测试中心;;中国地质科学院生态地球化学重点开放实验室;;有机地球化学国家重点实验室, 北京, 100037
2.
青岛大学化学化工与环境学院, 山东, 青岛, 266071
3.
中国科学院广州地球化学研究所, 有机地球化学国家重点实验室, 广东, 广州, 510640
4.
国家地质实验测试中心,,中国地质科学院生态地球化学重点开放实验室, 国家地质实验测试中心;;中国地质科学院生态地球化学重点开放实验室, 北京, 100037
5.
中国农业科学研究院农业环境与可持续发展研究所, 北京, 100012
|
语种
|
中文 |
ISSN
|
0379-1726 |
学科
|
地质学 |
基金
|
广东省自然科学基金
;
中国科学院广州地球化学研究所有机地球化学国家重点实验室基金
;
国家自然科学基金
|
文献收藏号
|
CSCD:4153060
|
参考文献 共
28
共2页
|
1.
Lal D. On the production of radioisotopes in the atmosphere by cosmic radiation and their application to meteorology.
J Atoms Terr Phys,1958,12:306-328
|
被引
11
次
|
|
|
|
2.
Bleichrodt J F. Mean tropospheric residence time of cosmic ray produced beryllium-7 at north temperate latitude.
J Geophys Res,1978,83(C6):3058-3062
|
被引
2
次
|
|
|
|
3.
Feely H W. Factors that cause seasonal variations in Beryllium-7 concentrations in surface air.
J Environ Radioact,1989,9(3):223-249
|
被引
11
次
|
|
|
|
4.
Holton J R. Stratosphere-troposphere exchange.
Rev Geophys,1995,33(4):403-439
|
被引
102
次
|
|
|
|
5.
Zanis P. Factors controlling beryllium-7 at Jungfraujoch in Switzerland.
Telus B,1999,51(4):789-805
|
被引
7
次
|
|
|
|
6.
Koch D M. Vertical transport of tropospheric aerosol as indicated by 7Be and 210Pb in a chemical tracer model.
J Geophys Res,1996,101(D13):18651-18666
|
被引
11
次
|
|
|
|
7.
郑向东. 瓦里关山近地面气溶胶中7Be和210Pb的观测及其对臭氧浓度变化的示踪.
科学通报,2005,50(1):72-76
|
被引
17
次
|
|
|
|
8.
林伟立. 珠穆朗玛峰地区大气示踪剂7Be的观测.
北京大学学报(自然科学版),2003,39(4):51-55
|
被引
3
次
|
|
|
|
9.
万国江. 瓦里关山与观风山近地面空气7Be浓度季节性变化对比.
地球化学,2006,35(3):221-226
|
被引
6
次
|
|
|
|
10.
Igarashi Y. Beryllium-7 deposition and its relation to sulfate deposition.
J Atmos Chem,1998,29(3):217-231
|
被引
3
次
|
|
|
|
11.
Savoie D L. Nitrate in the atmospheric boundary layer of the tropical South Pacific: Implications regarding sources and transport.
J Atmos Chem,1989,8(4):391-415
|
被引
2
次
|
|
|
|
12.
李军.
珠江三角洲有机氯农药污染的区域地球化学研究,2005:1-142
|
被引
2
次
|
|
|
|
13.
王俊. 珠江三角洲地区大气中有机氯农药的被动采样观测.
环境化学,2007,26(3):395-398
|
被引
12
次
|
|
|
|
14.
陈来国. 广州市夏季大气中多氯联苯和多溴联苯醚的含量及组成对比.
环境科学学报,2008,28(1):150-159
|
被引
37
次
|
|
|
|
15.
Gerasopoulosa E. Low-frequency variability of beryllium-7 surface concentrations over the Eastern Mediterranean.
Atmos Environ,2003,37:1745-1756
|
被引
1
次
|
|
|
|
16.
Koch D M. Spatial and temporal variability of 7Be surface concentrations.
Tellus B,1996,48(3):387-396
|
被引
3
次
|
|
|
|
17.
琚建华. 东亚夏季风的季节内振荡研究.
大气科学,2005,29(2):187-194
|
被引
63
次
|
|
|
|
18.
Lee L Y L. Analyses of airborne 7Be concentrations in Hong Kong using back-trajectories.
Atmos Environ,2004,38:7033-7040
|
被引
6
次
|
|
|
|
19.
Yong J A. Aerosol deposition velocities on the Pacific and Atlantic oceans calculated from 7Be measurements.
Earth Planet Sci Lett,1980,50(1):92-104
|
被引
11
次
|
|
|
|
20.
Graustein W. 7Be and 210Pb indicate an upper troposphere source for elevated ozone in the summertime subtropical free troposphere of the eastern North Atlantic.
Geophys Res Lett,1996,23(5):539-542
|
被引
5
次
|
|
|
|
|