通过反硝化富集培养对甲苯和间二甲苯的降解以及邻二甲苯的转化

Degradation of toluene and m-xylene and transformation of o-xylene by denitrifying enrichment cultures.

作者信息

Evans P J, Mang D T, Young L Y

机构信息

Department of Microbiology, New York University Medical Center, New York 10016.

出版信息

Appl Environ Microbiol. 1991 Feb;57(2):450-4. doi: 10.1128/aem.57.2.450-454.1991.

DOI:10.1128/aem.57.2.450-454.1991

PMID:2014990

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC182731/

Abstract

Seven different sources of inocula that included sediments, contaminated soils, groundwater, process effluent, and sludge were used to establish enrichment cultures of denitrifying bacteria on benzene, toluene, and xylenes in the absence of molecular oxygen. All of the enrichment cultures demonstrated complete depletion of toluene and partial depletion of o-xylene within 3 months of incubation. The depletion of o-xylene was correlated to and dependent on the metabolism of toluene. No losses of benzene, p-xylene, or m-xylene were observed in these initial enrichment cultures. However, m-xylene was degraded by a subculture that was incubated on m-xylene alone. Complete carbon, nitrogen, and electron balances were determined for the degradation of toluene and m-xylene. These balances showed that these compounds were mineralized with greater than 50% conversion to CO2 and significant assimilation into biomass. Additionally, the oxidation of these compounds was shown to be dependent on nitrate reduction and denitrification. These microbial degradative capabilities appear to be widespread, since the widely varied inoculum sources all yielded similar results.

摘要

使用七种不同的接种源（包括沉积物、受污染土壤、地下水、工艺废水和污泥），在无氧条件下建立了反硝化细菌对苯、甲苯和二甲苯的富集培养。所有富集培养在培养3个月内均显示甲苯完全消耗，邻二甲苯部分消耗。邻二甲苯的消耗与甲苯代谢相关且依赖于甲苯代谢。在这些初始富集培养中未观察到苯、对二甲苯或间二甲苯的损失。然而，间二甲苯被仅在间二甲苯上培养的传代培养物降解。测定了甲苯和间二甲苯降解的完整碳、氮和电子平衡。这些平衡表明这些化合物被矿化，超过50%转化为二氧化碳，并大量同化到生物量中。此外，这些化合物的氧化显示依赖于硝酸盐还原和反硝化作用。这些微生物降解能力似乎很普遍，因为来源广泛多样的接种源都产生了相似的结果。

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本文引用的文献

Anaerobic Oxidation of Toluene, Phenol, and p-Cresol by the Dissimilatory Iron-Reducing Organism, GS-15.异化型铁还原菌 GS-15 对甲苯、苯酚和对甲酚的厌氧氧化

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