多环芳烃生物降解过程中的毒性及遗传毒性增强

S. Belkin, M. Stieber, A. Tiehm, F. Frimmel, A. Abeliovich, P. Werner, S. Ulitzur
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引用次数: 68

摘要

为了研究多环芳烃(PAH)污染土壤的生物修复潜力,在实验室中使用了多环芳烃柱渗滤器。这些柱中含有用特定多环芳烃混合物人工改良的土壤或来自德国卡尔斯鲁厄的污染土壤。在所有情况下,生物降解过程导致消除原始污染物。然而,这伴随着通过MutatoxTM试验确定的柱流出物的遗传毒性活性的显着增加。然而,当在渗透液中加入表面活性剂时,遗传毒性实际上被消除了。虽然在某些情况下遗传毒性的变化与毒性(MicrotoxTM)数据平行,但在其他情况下趋势相反。结论是,当降解不完全时,存在毒性和遗传毒性增强的可能性,而后者的危害并不总是通过短期毒性试验来预测的。因此,生物修复项目提倡进行常规的遗传毒性监测;MutatoxTM试验似乎是实现这一目的的方便工具。©1994 by John Wiley & Sons, Inc.。
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Toxicity and genotoxicity enhancement during polycyclic aromatic hydrocarbons biodegradation
Several laboratory column percolators were operated in order to study the bioremediation potential of polycyclic aromatic hydrocarbons (PAH)-contaminated soils. The columns contained either soil artificially amended with specific PAH mixtures or contaminated soil from a site in Karlsruhe, Germany. In all cases, biodegradative processes led to the elimination of the original contaminants. This, however, was accompanied by a marked increase in genotoxic activity of the column effluents as determined by the MutatoxTM assay. Genotoxicity was practically abolished, however, when a surfactant was added to the percolating fluids. While in some cases the changes in genotoxicity were paralleled by toxicity (MicrotoxTM) data, in others the trend was opposite. It is concluded that when degradation is incomplete, the potential exists for toxicity and genotoxicity enhancement, with the latter hazard not always predictable by short-term toxicity assays. Routine genotoxicity monitoring is thus advocated for bioremediation projects; the MutatoxTM assay appears to be a convenient tool for this purpose. © 1994 by John Wiley & Sons, Inc..
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