Bioremediation of Diesel Fuel Contaminated Soil: Effect of Non Ionic Surfactants and Selected Bacteria Addition

Elena Collina, Marina Lasagni, Demetrio Pitea, Andrea Franzetti, Patrizia Di Gennaro, Giuseppina Bestetti
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引用次数: 18

Abstract

Aim of this work was to evaluate influence of two commercial surfactants and inoculum of selected bacteria on biodegradation of diesel fuel in different systems. Among alkyl polyethossilates (Brij family) and sorbitan derivates (Tween family) a first selection of surfactants was performed by estimation of Koc and Dafnia magna EC50 with molecular descriptor and QSAR model. Further experiments were conducted to evaluate soil sorption, biodegradability and toxicity. In the second part of the research, the effect of Brij 56, Tween 80 and selected bacteria addition on biodegradation of diesel fuel was studied in liquid cultures and in slurry and solid phase systems. The latter experiments were performed with diesel contaminated soil in bench scale slurry phase bioreactor and solid phase columns. Tween 80 addition increased the biodegradation rate of hydrocarbons both in liquid and in slurry phase systems. Regarding the effect of inoculum, no enhancement of biodegradation rate was observed neither in surfactant added nor in experiments without addition. On the contrary, in solid phase experiments, inoculum addition resulted in enhanced biodegradation compared to surfactant addition.

柴油污染土壤的生物修复:非离子表面活性剂和选择性细菌添加的效果
本研究的目的是评价两种商品表面活性剂和所选细菌接种量对不同体系中柴油生物降解的影响。在烷基聚硅酸酯(Brij家族)和山梨醇衍生物(Tween家族)中,利用分子描述符和QSAR模型对Koc和大马齿草EC50进行了初步筛选。进一步进行了土壤吸附性、生物降解性和毒性试验。在第二部分的研究中,研究了brij56、Tween 80和选定的细菌添加对柴油生物降解的影响,分别在液体培养、浆相和固相体系中进行了研究。后一项实验是用柴油污染的土壤在实验规模的浆相生物反应器和固相生物塔中进行的。添加吐温80提高了烃类在液相和浆相体系中的生物降解率。在接种效果方面,无论是添加表面活性剂还是不添加表面活性剂,均未观察到生物降解率的提高。相反,在固相实验中,与添加表面活性剂相比,添加接种物可以增强生物降解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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