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POCIS采样技术应用于九龙江流域水环境中雌激素的检测 被引量:3

Determination of Estrogenic Compounds in Water of Jiulong River Using Polar Organic Chemical Integrative Sampler
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摘要 极性有机物一体化采样器(POCIS)作为富集水体中有机物的新型采样技术,可以反映目标物在被测水体中的时间权重浓度,因此在环境监测中是对主动采样方式的重要补充.本研究采用POCIS进行了4种固醇类雌激素化合物(雌酮、雌二醇、雌三醇及雌炔醇)的富集动力学,以及温度和目标物浓度对POCIS富集雌激素影响的实验室模拟研究.结果表明,POCIS对目标化合物的富集放置时间7 d内呈现显著的线性关系(r2≥0.988 1,P<0.001).温度对目标物在POCIS上富集的影响比较显著(RSD>12%),随着温度的升高,目标化合物在POCIS上的采样速率减小.而目标物浓度对POCIS富集没有显著的影响(RSD<5%).将所建立的POCIS采样装置应用于九龙江流域的现场环境中,发现利用POCIS估算出的目标物时间权重浓度与主动采样测定的浓度具有显著的相关性(r2=0.720 9,P<0.001),验证了POCIS在实际环境中的可应用性. Polar organic chemical integrative sampler (POCIS) has been recently documented for the detection of polar organic compounds in the environment to achieve a time weighted average concentration. So it is an important complimentary for spot sampling. POCIS was examined for its sampling efficiency for four kinds of estrogenic compounds (EDCs: estrone, 17α-ethynylestradiol, 17β- estradiol, estriol) in this study. The kinetic studies showed an integrative uptake up to 7 d and the sampling rate decreased as the temperature increased(RSD 〉 12% ). As for different concentrations of target compounds, the sampling rate was not affected by the concentrations(RSD 〈 5% ). After laboratory experiments, an environmental field study was performed in Jiulong River. The results showed that there was a relatively good correlation between the measured and calculated values ( r2 = 0. 720 9, P 〈 0. 001 ). It demonstrated that POCIS can be used in aquatic field systems.
作者 张利鹏 王新红 李永玉 吴玉玲 张祖麟
机构地区 厦门大学近海海洋环境科学国家重点实验室 厦门大学环境与生态学院 James Hutton研究所环境与生物化学科学组
出处 《环境科学》 EI CAS CSCD 北大核心 2014年第1期117-122,共6页 Environmental Science
基金 近海海洋环境科学国家重点实验室访问学者基金项目 海洋公益性行业科研专项(201105013)
关键词 雌激素 被动采样 极性化合物一体化采样器 温度 九龙江 estrogens passive sampler polar organic chemical integrative sampler (POCIS) temperature Jiulong River
分类号 X832 [环境科学与工程—环境工程] X853 [环境科学与工程—环境工程]
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参考文献26

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二级参考文献2

共引文献29

同被引文献24

  • 1张丽娟,胡国成,何连芳,黄楚珊,郑晶,郑海.广州水产品中全氟辛烷磺酸和全氟辛酸的污染特征[J].中国环境科学,2013,33(S1):198-202. 被引量:10
  • 2Harman C, Boyum O, Tollefsen K E, et al. Uptake of some selected aquatic pollutants in semipermeable membrane devices (SPMDs) and the polar organic chemical integrative sampler (POCIS) [J]. Journal of Environmental Monitoring, 2008,10(2): 239-247.
  • 3Vrana B, Allan I J, Greenwood R, et al. Passive sampling techniques for monitoring pollutants in water [J]. TrAC in Analytical Chemistry, 2005,24(10):845-868.
  • 4Vrana B, Mills G, Greenwood R, et al. Performance optimisation of a passive sampler for monitoring hydrophobic organic pollutants in water [J]. Journal of Environmental Monitoring, 2005,7(6):612-620.
  • 5Rujiralai T, Bull I D, Llewellyn N, et al. In situ polar organic chemical integrative sampling (POCIS) of steroidal estrogens in sewage treatment works discharge and river water [J]. Journal of Environmental Monitoring, 2011,13(5): 1427-1434.
  • 6Harman C, Brooks S, Sundt R C, et al. Field comparison of passive sampling and biological approaches for measuring exposure to PAH and alkylphenols from offshore produced water discharges [J]. Marine Pollution Bulletin, 2011,63(5):141-148.
  • 7Miege C, Budzinski H, Jacquet R, et al. Polar organic chemical integrative sampler (POCIS): Application for monitoring organic micropollutants in wastewater effluent and surface water [J]. Journal of Environmental Monitoring, 2012,14(2):626-635.
  • 8Jacquet R, Miege C, Bados P, et al. Evaluating the polar organic chemical integrative sampler for the monitoring of beta-blockers and hormones in wastewater treatment plant effluents and receiving surface waters [J]. Environmental Toxicology and Chemistry, 2012,31(2):279-288.
  • 9Li H, Helm P A, Paterson G~ et al. The effects of dissolved organic matter and pH on sampling rates for polar organic chemical integrative samplers (POCIS) [J]. Chemosphere, 2011,83(3):271-280.
  • 10Alvarez D A, Rosen M R, Perkins S D, et al. Bottom sediment as a source of organic contaminants in Lake Mead, Nevada, USA [J]. Chemosphere, 2012,88(5):605-611.

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环境科学
2014年 第1期

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