PAHs in aquatic sediment in Hangzhou, China: Analytical methods, pollution pattern, risk assessment and sources 被引量：15

PAHs in aquatic sediment in Hangzhou, China: Analytical methods, pollution pattern, risk assessment and sources

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摘要 Eleven surface sediment samples, from Hangzhou section of Qiantang River and Jinghang Canal, west Lake the inland river were collected to investigate 17 polycycUc aromatic hydrocarbons（PAHs） pollution in aquatic sediments of Hangzhou. Accelerated solvent extraction（ASE） was used to extract PAHs from sediments with satisfactory recoveries. It was found that the total PAHs in the sediments ranged from 308.4 to 3037 ng/g dw, and PAHs pollution in sediments from Jinghang Canal were the heaviest. Lowest effect level（LEL） and severe effect level （SEL） sediment quality guidelines were introduced to perform risk assessment for PAHs pollution in aquatic sediments. Only one sample in Jinghang Canal had adverse impact on benthic organism. 2-3 ring PAHs had a noticeable contribution to total PAHs, especially NA, PHEN. A quantity method was used to determine the major source, the results showed petroleum origin was the chief source to PAHs pollution in all sediments with the exception of sediments from Jinghang Canal where combustion sources had a larger contribution. Eleven surface sediment samples, from Hangzhou section of Qiantang River and Jinghang Canal, west Lake the inland river were collected to investigate 17 polycycUc aromatic hydrocarbons（PAHs） pollution in aquatic sediments of Hangzhou. Accelerated solvent extraction（ASE） was used to extract PAHs from sediments with satisfactory recoveries. It was found that the total PAHs in the sediments ranged from 308.4 to 3037 ng/g dw, and PAHs pollution in sediments from Jinghang Canal were the heaviest. Lowest effect level（LEL） and severe effect level （SEL） sediment quality guidelines were introduced to perform risk assessment for PAHs pollution in aquatic sediments. Only one sample in Jinghang Canal had adverse impact on benthic organism. 2-3 ring PAHs had a noticeable contribution to total PAHs, especially NA, PHEN. A quantity method was used to determine the major source, the results showed petroleum origin was the chief source to PAHs pollution in all sediments with the exception of sediments from Jinghang Canal where combustion sources had a larger contribution.

作者 ZHU Li-zhong CAI Xue-fen WANG Jing

机构地区 Department of Environmental Science Women＇s Hospital Zhejiang Provincial Environmental Monitoring Centre

出处《Journal of Environmental Sciences》 SCIE EI CAS CSCD 2005年第5期748-755,共8页 环境科学学报（英文版）

基金 The National Basic Research Program(973) of China(No.2003CB415004)

关键词 PAHS ASE SEDIMENT source risk assessment PAHs ASE sediment source risk assessment

分类号 X522 [环境科学与工程—环境工程]

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参考文献45

1ArcosJ C, Argus M G, 1975. Chemical induction of cancer[ M]. Structural bases and biological mechanisms. Vol Ⅱ A. Academic Press.
2Baumard P, Budzinski H, Garrigues P, 1998. Determination of polycyclic aronmtic hydrocarbons (PAHs) in sediments and mussels of western Mediterranean Sea[J]. Environ Toxicol Chem, 17: 765-776.
3Benlahcen K T, Chaoui A, Budzinski H et al. , 1997. Distribution and sources of polycyclic aromatic hydrocarbons in some mediterranean coastal sediments [J]. Marine Pollution Bulletin, 34: 298-305.
4Boehm P D, Farrington J W 1984. Aspects of the polycyclic aromatic hydrocarbon geochemistry of recent sediments in the Georges Bank region [J]. Environ Sci Technol, 18: 840-845.
5Boehm P D, Page D S, Gilfillan E S et al. , 1998. Study of the fates and effects of the Exxon Valdez oil spill on benthic sediments in two bays in Prince William Sound, Alaska. 1. Study design, chemistry, and source fingerprinting[J]. Environ Sci Technol, 32:567 576.
6Botello A V, Villanueva S F, Diaz G F et al.. 1998. Polyeyclic aromatic hydrocarbons in sediments from Salina Cruz Harbor and Coastal areas, Oaxaca. Mexico[J]. Marine Pollution Bulletin. 36(7) : 554-558.
7Canton L, Grimah J O. 1992. Gaschronlatographic-mass spectrometric characterization of polyeyelic aromatic hydrocarbon mixtures in polluted coastal sediments[J]. Journal of Chromatography, 607: 279-286.
8Hallet D J, Brecher R W, 1984. Cycling of polyeyclie aronmtic hydrocarbons in the great ecosystem[ M]. Toxic contaminants ill the great lakes. New York: Wiley. 213-237.
9Hawthorne S B, 1990. Analytical-scale supercritical fluid extraction [ J]. Anal Chem, 62: 633A-642A.
10Hites R A, Laflamme R E, Rarrington J W. 1977. Sedimentary, polycyclic aromatic hydrocarbons : the historical record[J]. Science, 198 : 829-831.

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1杨松林,刘国贤,杜瑞芝,张兵.用^(210)Pb年代学方法对辽东湾现代沉积速率的研究[J].沉积学报,1993,11(1):128-135. 被引量：18
2FENG Xionghan1, TAN Wenfeng1, LIU Fan1, HUANG Qiaoyun1 & LIU Xiangwen2 1. College of Resources and Environment, Huazhong Agricultural University, Wuhan 430070, China,2. Testing Center, China University of Geosciences, Wuhan 430074, China.Pathways of birnessite formation in alkali medium[J].Science China Earth Sciences,2005,48(9):1438-1451. 被引量：7
3焦迪,李进,李娟,李久义.硫酸盐还原菌在中水中的分离及生长特性研究[J].环境科学与技术,2010,33(10):64-67. 被引量：14
4周秀艳,李宇斌,王恩德,刘秀云.辽东湾湿地重金属污染及潜在生态风险评价[J].环境科学与技术,2004,27(5):60-62. 被引量：38
5占新华,周立祥.多环芳烃(PAHs)在土壤-植物系统中的环境行为[J].生态环境,2003,12(4):487-492. 被引量：38
6马德毅.海洋沉积物的污染指示作用和监测方法[J].海洋通报,1993,12(5):89-97. 被引量：39
7倪军明,李军平.甜菊糖工业发展现状与前景[J].广州食品工业科技,2004,20(3):156-158. 被引量：34
8文湘华.水体沉积物重金属质量基准研究[J].环境化学,1993,12(5):334-341. 被引量：69
9樊虎,盛良全,童红武,苏庆德,雍国平,刘少民.固相萃取-高效液相色谱法测定卷烟主流烟气中的多环芳烃[J].分析测试学报,2005,24(1):103-105. 被引量：16
10曹学丽,姚渭溪,胡学华.同步荧光-高效液相色谱联用法分析多环芳烃同分异构体[J].分析化学,1994,22(7):664-667. 被引量：3

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1LANGYinhai,CAOZhengmei,NIEXinhua.Extraction of Organochlorine Pesticides in Sediments Using Soxhlet,Ultrasonic and Accelerated Solvent Extraction Techniques[J].Journal of Ocean University of China,2005,4(2):173-176. 被引量：9
2Mohamed H.GERIESH,Klaus-Dieter BALKE,Ahmed E.EL-RAYES.Problems of drinking water treatment along Ismailia Canal Province, Egypt[J].Journal of Zhejiang University-Science B(Biomedicine & Biotechnology),2008,9(3):232-242.
3支振锋.建在垃圾堆上的城市恐怖之城——20世纪70年代美国腊夫垃圾污染事件[J].新安全,2002(11):56-58. 被引量：1
4腊芙运河化学垃圾污染事件[J].世界环境,2010(6):7-7.
5HE Bin,YUN ZhaoJun,SHI JianBo,JIANG GuiBin.Research progress of heavy metal pollution in China:Sources,analytical methods,status,and toxicity[J].Chinese Science Bulletin,2013,58(2):134-140. 被引量：117
6Weng Huanxin, Zhang Dengrong Department of Earth Sciences, Zhejiang University, Hangzhou 310027, China Charlie Y.Xu Department of Geological Sciences, University of Illinois at Chicago. U.S.A..Distribution　of　heavy-metals　in　the　Grand　Canal(Hangzhou　section)and　its　contributing　factors[J].Journal of Environmental Sciences,1997,9(3):12-24. 被引量：1
7李佳枚,石贵玉,韦颖.重金属镉对互花米草生长及生理特性的影响[J].安徽农业科学,2011,39(4):2174-2176. 被引量：11
8Li Xiu Zhen, Qu Xiang rong, Wang Lian ping, Zhang Hai rong, Xiao Du ning Institute of Applied Ecology, Chinese Academy of Sciences, B.O. Box 417, Shengyang 110015, China.Purification function of the natural wetland in the Liaohe Delta[J].Journal of Environmental Sciences,1999,11(2):109-115. 被引量：4
9Liao Bohan,Tang Hongxiao(Researeh Center for Eco-Environmental Sciences. Chinese Academy of Sciences, Beijing 100085, China).The buffering effects of aquatic sediments against acidic deposition[J].Journal of Environmental Sciences,1994,6(1):21-28.
10LIU Li-bin,LIU Yan,LIN Jin-ming,TANG Ning,HAYAKAWA Kazuichi,MAEDA Tsuneaki.Development of analytical methods for polycyclic aromatic hydrocarbons (PAHs) in airborne particulates: A review[J].Journal of Environmental Sciences,2007,19(1):1-11. 被引量：10

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PAHs in aquatic sediment in Hangzhou, China: Analytical methods, pollution pattern, risk assessment and sources 被引量：15

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