Evaluation of the use of Pycnoporus sanguineus fungus for phenolics and genotoxicity decay of a pharmaceutical effluent treatment

Q3 Environmental Science

Revista Ambiente e Agua Pub Date : 2012-12-23 DOI:10.4136/AMBI-AGUA.966

Renata Alberto de Morais Watanabe, Paulo Sales, L. Campos, T. A. Garcia, M. Valadares, F. Schimidt, M. F. Santiago

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引用次数: 8

Abstract

If not properly and efficiently treated, wastes produced by the chemical industry can contaminate the environment. Using fungi able to degrade organic compounds (e.g. phenol) seems to be a prominent method to treat pharmaceutical wastewaters, in particular, the white-rot fungus. The aim of this work was to treat pharmaceutical effluent by the Pycnoporus sanguineus fungus. Three effluent samples were collected in a pharmaceutical industry. The production of enzymes such as laccase and manganese peroxidase was determined. Their production increased throughout the treatment with the P. sanguineus fungus, reaching maximum concentration of 4.48 U.mL-1 (Effluent 1), 8.16 U.mL-1 (Effluent 2), 2.8 U.mL-1 (Effluent 3) and 0.03 Abs.min-1 (Effluent 2), respectively, during 96 hours of biological treatment. Genotoxic effects of the raw and treated effluents were also investigated using the in vivo mouse bone marrow micronucleus (MN) assay. Results showed the biological treatment reduced the frequency of MN, in a dose-dependent manner, when compared to untreated sample. The decreasing of around 20% and 45% of phenolics concentration was observed throughout the treatment, confirming that laccase production can be related to the degradation of toxic compounds present in the effluent. Therefore, the biodegradation by the P. sanguineus fungus seems a promising method for the mineralization of recalcitrant compounds present in pharmaceutical effluents.

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血螺真菌处理某制药废水中酚类物质及遗传毒性衰变的评价

如果不适当和有效地处理，化学工业产生的废物会污染环境。利用能够降解有机化合物(如苯酚)的真菌似乎是处理制药废水的一种重要方法，特别是白腐菌。本研究的目的是利用血螺菌处理制药废水。收集了某制药业的三份污水样本。测定了漆酶、锰过氧化物酶等酶的产量。它们的产量在P. sanguineus真菌处理的整个过程中都有所增加，在96小时的生物处理期间，最大浓度分别达到4.48 U.mL-1(流出物1)、8.16 U.mL-1(流出物2)、2.8 U.mL-1(流出物3)和0.03 Abs.min-1(流出物2)。还利用小鼠骨髓微核(MN)测定法研究了未经处理和处理的废水的遗传毒性作用。结果显示，与未处理的样品相比，生物处理以剂量依赖的方式降低了MN的频率。在整个处理过程中，观察到酚类物质浓度下降了约20%和45%，证实了漆酶的产生可能与出水中有毒化合物的降解有关。因此，由P. sanguineus真菌的生物降解似乎是矿化存在于制药废水中的顽固性化合物的一种有前途的方法。

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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