| 浅层地下水氯代烃污染的天然生物降解 |
| 摘要点击 2523 全文点击 3323 投稿时间:2004-04-13 修订日期:2004-07-13 |
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| 中文关键词 氯代烃 天然衰减 生物降解 浅层地下水 |
| 英文关键词 chlorinated solvents natural attenuation biodegradation shallow groundwater |
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| 中文摘要 |
| 对我国北方某城市的浅层地下水进行了有机污染调查,局部地区发现了严重的氯代烃污染.PCE和TCE对地下水的污染程度远远大于CF和CT,是主要污染物,最高浓度分别为487.55μg/L和63.74μg/L.本文根据所掌握的资料,结合氯代烃天然条件下生物降解判定方法,对研究区地下水氯代烃生物降解衰减可能性进行研究.结果表明,该市地下水氯代烃污染区浅层地下水环境、Eh、pH值、生物降解的间接标志NO3-浓度变化,以及PCE和TCE生物降解中间产物等均有助于证实氯代烃生物降解转化的存在.多数点为Eh小于100mV的还原环境,将综合污染评价分级中1、2级,3、4级和5级所对应的NO3-/Cl-值求平均分别为0.804,0.754和0.596,在所有检出DCE的点中,cis-1,2-DCE的百分比均超过了DCE总量的80%.室内模拟实验进一步说明,氯代烃污染区地下水环境中,氯代烃完全可能产生共代谢生物降解转化,因此,确认PCE存在向TCE的生物降解转化,能够更加合理地解释这一地区TCE和PCE的污染现状. |
| 英文摘要 |
| Chlorinated solvents contaminations are most popular in shallow groundwater. A serious local groundwater contamination of chlorinated solvents is founded in a north city of China during the organic pollution investigation. On the basis of the available data and the determining methods of chlorinated solvents biodegradation in groundwater under natural conditions, research on chlorinated solvents biodegrading potential is carried out. The results show that the ground water environment parameters, Eh and pH of the groundwater, indirect sign of biodegradation, i.e. NO3- changing, and concentration variation of biodegradation intermediate products of PCE and TCE all proved that chlorinated solvents can be degraded by microorganism in groundwater. The results of simulating experiment also reveal that, co-metabolism biodegradation of chlorinated solvent was possible under the groundwater circumstances in this sample. Therefore, admitting there is biotransformation from PCE to TCE can explain the present situation more reasonably. |
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