本文利用索式提取和复合硅胶层析柱净化技术对底泥样品进行前处理,以BDE30、PCB209L为回收率添加标,以BDE118为进样内标,采用气相色谱质谱联用仪( GC?MS)对胶州湾北岸潮间带底泥中的7种非多溴联苯醚(non?PBDE)类溴代阻燃剂(1,3,5?三溴苯(TBB)、2,3,5,6?四溴对二甲苯(pTBX)、五溴甲苯(PBT)、三溴苯乙烯(PBEB)、六溴苯(HBB)、六氯二溴辛烷(HCDBCO)、2,2′,4,4′,5,5′?六溴联苯(BB153))进行分析.结果表明:各化合物的仪器检出限在0?03—0?59 ng·g-1之间、定量限在0?09—1.96 ng·g-1之间;底泥中各化合物的加标回收率在80%—107%之间;回收率添加标BDE30和PCB209L的回收率分别为80%—95%和85%—105%.实验中实际检出5种non?PBDE类溴代阻燃剂(TBB、PBT、PBEB、HBB、HCDBCO),其含量在0?13—0?96 ng·g-1(干重)之间.Non?PBDE类溴代阻燃剂进行主成分分析和相关性分析表明:PBEB和HCDBCO是底泥中的两大主要成分,具有相似的源?水体?底泥转化效率. TBB 与其他溴代阻燃剂呈现负相关,相关系数为-0?130—-0?461;PBEB与HBB的相关系数r为0?813(α=0?05),可能来源于同一种溴代阻燃剂的降解.
In this study, sediment samples from the north shore of Jiaozhou Bay were extracted by Soxhlet extraction and cleaned by composite silica gel column. BDE30 and PCB209L were added as surrogate compounds, and BDE118 was used as internal standard. Seven new brominated flame retardants ( non?polybrominated diphenyls ethers, non?PBDE ) , including TBB, pTBX, PBT, PBEB, HBB, HCDBCO and BB153, were analyzed by gas chromatography mass spectrometry ( GC?MS ) . The results showed that the detection limit varied from 0?03 to 0?59 ng·g-1 and the quantitative limit ranged from 0?09 to 1.96 ng·g-1. Moreover, the average recoveries of the spiked compounds in the sediments were in the range of 80% to 107%, and the recoveries of BDE30 and PCB209L were 80%—95%, 85%—105%, respectively. Five kinds of non?PBDE brominated flame retardants ( TBB, PBT, PBEB, HBB, HCDBCO) were detected, and the concentration ranged from 0?13 to 0?96 ng·g-1(dry weight). Principal component analysis and Pearson correlation analysis suggested that PBEB and HCDBCO were two main components, and have similar sources?water?sediment transformation efficiency. There were negative correlations between TBB and other non?PBDE BFRs correlation coefficients from -0?130 to -0?461. PBEB and HBB may have come the degradation of same brominated flame retardant, as the correlation coefficients was 0?813 (α=0?05) .
参考文献
[1] | 陈海,孙云娜,魏东洋.溴代阻燃剂的环境危害[J].广东化工,2011(08):91-92. |
[2] | Jiang-Ping Wu;Yun-Tao Guan;Ying Zhang;Xiao-Jun Luo;Hui Zhi;She-Jun Chen;Bi-Xian Mai .Several current-use, non-PBDE brominated flame retardants are highly bioaccumulative: Evidence from field determined bioaccumulation factors[J].Environment international,2011(1):210-215. |
[3] | 陈社军,麦碧娴,曾永平,罗孝俊,余梅,盛国英,傅家谟.珠江三角洲及南海北部海域表层沉积物中多溴联苯醚的分布特征[J].环境科学学报,2005(09):1265-1271. |
[4] | Zhang X;Li J;Chen M J et al.Toxicity of the brominated flame retardant tri-(2,3-dibromopropyl) isocyanurate in zebrafish[J].Chinese Science Bulletin,2011,56(15):1548-1555. |
[5] | Zhao X R;Zheng M H;Liang L N et al.Assessment of PCBs and PCDD/Fs along the Chinene Bohai Sea coastline by using mollusks as bioindicator[J].Archives of Environmental Contamination and Toxicology,2005,49:178-185. |
[6] | 刘义峰,吴桑云,陈勇,田梓文.胶州湾潮间带沉积物主要污染来源及分布特征[J].海洋科学进展,2010(02):163-169. |
[7] | Valle MD;Jurado E;Dachs J;Sweetman AJ;Jones KC .The maximum reservoir capacity of soils for persistent organic pollutants: implications for global cycling[J].Environmental Pollution,2005(1):153-164. |
[8] | 李学刚,宋金明,李宁,袁华茂,高学鲁.胶州湾沉积物中氮与磷的来源及其生物地球化学特征[J].海洋与湖沼,2005(06):562-571. |
[9] | 李玉,俞志明,曹西华,宋秀贤.重金属在胶州湾表层沉积物中的分布与富集[J].海洋与湖沼,2005(06):580-589. |
[10] | Chen, S.-J.;Feng, A.-H.;He, M.-J.;Chen, M.-Y.;Luo, X.-J.;Mai, B.-X..Current levels and composition profiles of PBDEs and alternative flame retardants in surface sediments from the Pearl River Delta, southern China: Comparison with historical data[J].Science of the Total Environment,2013:205-211. |
[11] | Yukihiko Y;Masahide K;Tatsukawa R et al.Hexabromobenzene and its debrominated compounds in human adipose tissues of Japan[J].CHEMOSPHERE,1988,17:703-707. |
[12] | Watanabe I;Kashimoto T;Tatsukawa R I .Hexabromobenzene and its debrominated compounds in river and estuary sediments in Japan[J].Bulletin of Environmental Contamination and Toxicology,1986,36:778-784. |
[13] | Watanabe I;Sakai S.Environmental release and behavior of brominated flame retardants[J].Environment International,2003:29,665-682. |
[14] | Ruiqiang Yang;Hua Wei;Jiehong Guo .Emerging Brominated Flame Retardants in the Sediment of the Great Lakes[J].Environmental Science & Technology: ES&T,2012(6):3119-3126. |
[15] | Hirama T.The realities in industry of flame retardants[M].Chemical Marcket Laboratry Ltd,Tokyo (Japanese),1984 |
[16] | LEWIS T. GAUTHIER;CRAIG E. HEBERT;D. V. CHIP WESELOH .Current-Use Flame Retardants in the Eggs of Herring Gulls (Larus argentatus) from the Laurentian Great Lakes[J].Environmental Science & Technology: ES&T,2007(13):4561-4567. |
[17] | JIPING ZHU;YUQING HOU;YONG-LAI FENG .Identification and Determination of Hexachlorocyclopentadienyl-Dibromocyclooctane (HCDBCO) in Residential Indoor Air and Dust:A Previously Unreported Halogenated Flame Retardant in the Environment[J].Environmental Science & Technology: ES&T,2008(2):386-391. |
[18] | Wang, D.-G.;Alaee, M.;Sverko, E.;Li, Y.-F.;Reiner, E.J.;Shen, L. .Analysis and occurrence of emerging chlorinated and brominated flame retardants in surficial sediment of the Dalian costal area in China[J].Journal of environmental monitoring: JEM,2011(11):3104-3110. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%