期刊文献+

Concentration and distribution of 17 organochlorine pesticides (OCPs) in seawater from the Japan Sea northward to the Arctic Ocean 被引量:3

Concentration and distribution of 17 organochlorine pesticides (OCPs) in seawater from the Japan Sea northward to the Arctic Ocean
原文传递
导出
摘要 Seventeen classic organochlorine pesticides in surface seawater were studied in terms of their composition pattern as well as their distribution pattern in the areas covering the Japan Sea,Okhotsk Sea,Bering Sea,Chukchi Sea and Arctic Ocean.Their concentrations varied,but roughly two levels were seen with one ranging between 0.1 and 1 ng L-1 for most HCH isomers and the other lower than 0.1 ng L-1 for other chemicals.Of the 17 target compounds,HCHs were dominant with a total concentration percentage generally more than 50%,and a relatively high concentration percentage of heptachlor and aldrine was also observed at scattered stations.The historical long-term trend of several target chemicals in the five sea zones considered was discussed in comparison with previous reports.Inter-sea zone comparison was carried out for individual chemicals by comparing the concentration variation in all five sea zones.A higher variation in concentration was generally found in the northern sea zones,namely the Bering Sea,Chukchi Sea and Arctic Ocean,for most target compounds.The sum concentration of the 17 target chemicals displayed a general trend of increasing northward from the Japan Sea to the Okhotsk Sea to the Bering Sea to the Arctic Ocean.Different latitudinal trends were found forγ-HCH andγ-HCH,and the reason of this difference was discussed by considering their divergence of thermodynamic properties,which could contribute to a slightly different fractionation effect during their northward transport driven by atmospheric long range transport.The source of the HCHs was identified by analyzing theγ-HCH/γ-HCH ratio,which was less than 4 without exception,indicating a component characteristic featuring a mixture of technical HCHs and lindane.In addition,the vertical distribution ofγ-HCH,γ-HCH and their ratio at station B80 was discussed.Different patterns were found in the upper 300 m while in layers from 300 m downward to 3500 m the patterns were fairly comparable.The vertical profiles were used to correlate the water mass distribution,based on which four layers were tentatively classified at station B80. Seventeen classic organochlorine pesticides in surface seawater were studied in terms of their composition pattern as well as their distribution pattern in the areas covering the Japan Sea,Okhotsk Sea,Bering Sea,Chukchi Sea and Arctic Ocean.Their concentrations varied,but roughly two levels were seen with one ranging between 0.1 and 1 ng L-1 for most HCH isomers and the other lower than 0.1 ng L-1 for other chemicals.Of the 17 target compounds,HCHs were dominant with a total concentration percentage generally more than 50%,and a relatively high concentration percentage of heptachlor and aldrine was also observed at scattered stations.The historical long-term trend of several target chemicals in the five sea zones considered was discussed in comparison with previous reports.Inter-sea zone comparison was carried out for individual chemicals by comparing the concentration variation in all five sea zones.A higher variation in concentration was generally found in the northern sea zones,namely the Bering Sea,Chukchi Sea and Arctic Ocean,for most target compounds.The sum concentration of the 17 target chemicals displayed a general trend of increasing northward from the Japan Sea to the Okhotsk Sea to the Bering Sea to the Arctic Ocean.Different latitudinal trends were found forγ-HCH andγ-HCH,and the reason of this difference was discussed by considering their divergence of thermodynamic properties,which could contribute to a slightly different fractionation effect during their northward transport driven by atmospheric long range transport.The source of the HCHs was identified by analyzing theγ-HCH/γ-HCH ratio,which was less than 4 without exception,indicating a component characteristic featuring a mixture of technical HCHs and lindane.In addition,the vertical distribution ofγ-HCH,γ-HCH and their ratio at station B80 was discussed.Different patterns were found in the upper 300 m while in layers from 300 m downward to 3500 m the patterns were fairly comparable.The vertical profiles were used to correlate the water mass distribution,based on which four layers were tentatively classified at station B80.
出处 《Science China Chemistry》 SCIE EI CAS 2010年第5期1033-1047,共15页 中国科学(化学英文版)
基金 supported by the National Natural Science Foundation of China(40776040,40306012 & 40776003) partly funded by the National High Technology Research and Development Program of China (2007AA09Z121) the Ocean Public Welfare Scientific Research Project the State Oceanic Administration of China(200805095) the Fujian Provincial Department of Science & Technology(2005Y021)
关键词 ORGANOCHLORINE pesticides Arctic Ocean SOLID-PHASE extraction SOLID-PHASE MICROEXTRACTION organochlorine pesticides Arctic Ocean solid-phase extraction solid-phase microextraction
  • 相关文献

参考文献52

  • 1陈敏,黄奕普,金明明,邱雨生.The sources of the upper and lower halocline water in the Canada Basin derived from isotopic tracers[J].Science China Earth Sciences,2003,46(6):625-639. 被引量:10
  • 2L. M. M. Jantunen,T. F. Bidleman.Organochlorine Pesticides and Enantiomers of Chiral Pesticides in Arctic Ocean Water[J]. Archives of Environmental Contamination and Toxicology . 1998 (2)
  • 3Shinsuke Tanabe,Ryo Tatsukawa.Chlorinated hydrocarbons in the North Pacific and Indian Oceans[J]. Journal of the Oceanographical Society of Japan . 1980 (4)
  • 4Weber J,Halsall CJ,Muir DCG,Teixeira C,Burniston DA,Strachan WMJ,Hung H,Mackay N,Arnold D,Kylin H.Endosulfan and gamma-HCH in the Arctic:An assessment of surface seawater con- centrations and air-sea exchange. Environmental Science and Technology . 2006
  • 5Ding X,Wang XM,Xie ZQ,Xiang CH,Mai BX,Sun LG,Zheng M,Sheng GY,Fu JM.Atmospheric hexachlorocyclohexanes in the North Pacific Ocean and the adjacent Arctic region:Spatial patterns, chiral signatures,and sea-air exchanges. Environmental Science and Technology . 2007
  • 6Jensen J,Adare K,Shearer R.Canadian Arctic contaminants assess- ment report. QS-8525-000-EE-A1, Catalogue No R72-260/1997E . 1997
  • 7Harner T,Kylin H,Bidleman TF,Strachan WMJ.Removal of alpha-and gamma-hexachlorocyclohexane and enantiomers of alpha-hexa- chlorocyclohexane in the eastern Arctic Ocean. Environmental Science and Technology . 1999
  • 8Robert JL,Jan OB,Rune D,Bjrn MJ,Even HJ,Christian S,Jona- than V,Mathilakath MV,Geir WG.Exposure and effects assessment of persistent organohalogen contaminants in arctic wildlife and fish. Science of the Total Environment .
  • 9Rice CP,Shigaev VV.Spatial distribution of hexachlorocyclohexane isomers in the Bering and Chukchi Sea shelf ecosystem. Environmental Science and Technology . 1997
  • 10Qiu CR,Cai MG.Ultra trace analysis of 17 organochlorine pesticides in water samples from the Arctic based on the combination of solid-phase extraction and headspace solid-phase microextraction-gas chromatography-electron-capture detector. Journal of Chromatography A . 2009

二级参考文献10

  • 1Codispoti,L. A.,Richards,F. A.Micronutrient distributions in the East Siberian and Laptev sea during summer 1963[].Arctic.1968
  • 2Treshnikov A F.Arctic Atlas[].Arkt Antarkt Moscow: Mauchno Issled Inst.1985
  • 3Macdonald R W,Carmack E C,McLaughlin F A,et al.Composition and modification of water masses in the Mackenzie Shelf estuary[].Journal of Geophysical Research.1989
  • 4Moore R M,Lowings M G,Tan F C.Geochemical profiles in the central Arctic Ocean: their relation to freezing and shallow circulation[].Journal of Geophysical Research.1983
  • 5Schlosser P,Swift J H,Lewis D,et al.The role of the large-scale Arctic Ocean circulation in the transport of contaminants[].Deep Sea Research.1995
  • 6Rudels, B.,L. G. Anderson,,E. P. Jones.Formation and evolution of the surface mixed layer and halocline of the Arctic Ocean[].Journal of Geophysical Research.1996
  • 7K. Aagaard,E. C. Carmack.The Role of Sea Ice and Other Fresh Water in the Arctic Circulation[].Journal of Geophysical Research.1989
  • 8DJ Cavalieri,P Gloersen,CL Parkinson,JC Comiso,JJ Zwally.Observed hemispheric asymmetry in global sea ice changes[].Science.1997
  • 9Bedard P C.Hillaire-Marcel.Page P. I8O modeling of freshwater in Baffin Bay and Canadian coastal waters[].Nature.1981
  • 10RW Macdonald,E Carmack.The role of large-scale underice topography in separating estuary and ocean on an Arctic shelf[].Atmosphere Ocean.1991

共引文献9

同被引文献97

引证文献3

二级引证文献11

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部