科技报告详细信息
Microarray-based analysis of survival of soil microbial community during ozonation
Wang, Jian ; Van Nostrand, Joy D. ; He, Zhili ; Wu, Liyou ; Deng, Ye ; Zhang, Xu ; Zhou, Jizhong ; Li, Guanghe
关键词: 59;    54;    58;    ABUNDANCE;    BACTERIA;    CARBON;    FUNCTIONALS;    FUNGI;    GENES;    MICROORGANISMS;    MONITORS;    NITROGEN;    OZONE;    PETROLEUM;    PETROLEUM RESIDUES;    PHOSPHORS;    SOILS;    SULFUR ozonation;    bioremediated soil;    microorganisms;   
DOI  :  10.2172/986918
RP-ID  :  LBNL-3879E-Poster
PID  :  OSTI ID: 986918
Others  :  TRN: US201018%%379
美国|英语
来源: SciTech Connect
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【 摘 要 】

A 15 h ozonation was performed on bioremediated soil to remove recalcitrant residual oil. To monitor the survival of indigenous microorganisms in the soil during in-situ chemical oxidation(ISCO) culturing and a functional genearray, GeoChip, was used to examine the functional genes and structure of the microbial community during ozonation (0h, 2h, 4h, 6h, 10hand15h). Breakthrough ozonation decreased the population of cultivable heterotrophic bacteria by about 3 orders of magnitude. The total functional gene abundance and diversity decreased during ozonation, as the number of functional genes was reduced by 48percent after 15 h. However, functional genes were evenly distributed during ozonation as judged by the Shannon-Weaver Evenness index. A sharp decrease in gene number was observed in the first 6 h of ozonation followed by a slower decrease in the next 9 h, which was consistent with microbial populations measured by a culture based method. Functional genes involved in carbon, nitrogen, phosphors and sulfur cycling, metal resistance and organic remediation were detected in all samples. Though the pattern of gene categories detected was similar for all time points, hierarchica lcluster of all functional genes and major functional categories all showed a time-serial pattern. Bacteria, archaea and fungi decreased by 96.1percent, 95.1percent and 91.3percent, respectively, after 15 h ozonation. Delta proteobacteria, which were reduced by 94.3percent, showed the highest resistance to ozonation while Actinobacteria, reduced by 96.3percent, showed the lowest resistance. Microorganisms similar to Rhodothermus, Obesumbacterium, Staphylothermus, Gluconobacter, and Enterococcus were dominant at all time points. Functional genes related to petroleum degradation decreased 1~;;2 orders of magnitude. Most of the key functional genes were still detected after ozonation, allowing a rapid recovery of the microbial community after ozonation. While ozone had a large impact on the indigenous soil microorganisms, a fraction of the key functional gene-containing microorganisms survived during ozonation and kept the community functional.

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