在堆肥过程中，降解 13C(4)-4,5,9,10-苝的细菌群落优势明显。

Bacterial communities predominant in the degradation of 13C(4)-4,5,9,10-pyrene during composting.

机构信息

Key Laboratory of Urban Environment and Health Institute of Urban Environment, Chinese Academy of Sciences, Xiamen 361021, China.

出版信息

Bioresour Technol. 2013 Sep;143:608-14. doi: 10.1016/j.biortech.2013.06.039. Epub 2013 Jun 19.

DOI:10.1016/j.biortech.2013.06.039

PMID:23845709

Abstract

An in-vessel composting bioremediation of (13)C4-4,5,9,10-pyrene and unlabeled pyrene spiked soil amended with fresh wastes was investigated by DNA-based stable isotope probing (SIP) of active bacteria involved. Highest dissipation of (13)C4-pyrene was detected at 55 °C after 42 days composting. The active bacterial communities in the composting changed over time, showing a distinct difference among different stages. α-, β-, γ-Proteobacteria, and Actinobacteria were detected mainly involving in pyrene degradation at 38 °C over 14 days composting. Streptomyces appeared to dominate the pyrene degradation at 55 °C. β- and γ-Proteobacteria and Actinobacteria were the dominant pyrene degraders at 70 °C after 42 days composting and at 38 °C after 60 days composting. The results of this study suggest the pyrene degradation was performed by phylogenetically distinct bacterial guilds from the phyla Actinobacteria and Proteobacteria during in-vessel composition processes.

摘要

采用 DNA 稳定同位素探针技术（SIP）对参与其中的活性细菌进行研究，发现（13）C4-4、5、9、10-芘和添加新鲜废物的未标记芘污染土壤的容器内堆肥生物修复。在 55°C 下堆肥 42 天后，检测到（13）C4-芘的最大消解。随着时间的推移，堆肥过程中的活性细菌群落发生了变化，在不同阶段表现出明显的差异。α-、β-、γ-变形菌和放线菌主要在 38°C 下堆肥 14 天期间参与芘降解。在 55°C 时，链霉菌似乎主导了芘的降解。β-和γ-变形菌和放线菌是 70°C 下 42 天堆肥后和 38°C 下 60 天堆肥后的主要芘降解菌。本研究结果表明，在容器内组成过程中，芘的降解是由放线菌和变形菌门中具有系统发育差异的细菌菌群完成的。

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在堆肥过程中，降解 13C(4)-4,5,9,10-苝的细菌群落优势明显。

Bacterial communities predominant in the degradation of 13C(4)-4,5,9,10-pyrene during composting.

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