苯酚梯度驯化过程中厌氧折流板反应器微生物群落演替特征

Microbial community succession characteristics in an anaerobic baffled reactor during phenol gradient acclimation

  • 摘要: 研究了具有4个隔室的厌氧折流板反应器(ABR)在使用葡萄糖和苯酚驯化时COD、苯酚以及pH的变化情况,并运用Illumina高通量测序平台分析了每个隔室内微生物群落的演替过程。结果表明,COD和苯酚的去除主要发生在第1、2隔室,第3、4隔室出水COD长期稳定在100 mg·L-1,反应器的降解能力未充分发挥;使用葡萄糖作为单一进水碳源时第1隔室的pH在5.4 ~ 6.8,在苯酚梯度驯化开始后,前端隔室中pH有所上升,但出水中pH逐渐降低,说明有未降解的酸性物质产生;苯酚梯度驯化使得细菌群落优势菌Firmicutes的丰度由最大66.5%下降至15.2%,Desulfobacterota最终成为主要细菌菌种,古菌群落优势菌Methanobacteriaceae的丰度下降了约90%,未分类古菌(Unassigned)丰度由15%降至0,Woesearchaeales和Micrarchaeales成为最终的优势古菌;冗余分析显示,COD和苯酚是影响菌种丰度的主要环境因子,一些功能尚未确定的菌种如Lokiarchaeia、Asgardarchaeota的分布与未知环境因子相关。

     

    Abstract: A gradient acclimation of anaerobic sludge in an four-chamber anaerobic baffled reactor (ABR) was determined. Glucose, a mixture of glucose and phenol and complete phenol were concurrently added to ABR. The changes of COD, phenol and pH in each chamber of ABR were analyzed and the microbial community structure was investigated by the Illumina high-throughput sequencing technology. The results showed the greatest removal rate of COD and phenol was observed in the first two chambers. The treatment efficencies of the ABR was not fully achieved because COD in the third and fourth chamber was always maintained at 100 mg·L-1. The pH values in the first chamber of ABR varied from 5.4 to 6.8 when glucose was used as the solo substrate. The pH values in the front chambers increased when phenol was added. Howerver a decrease of pH in the fourth chamber indicated there were acid substances contained in outflows. The abundance of Firmicutes which was the dominant species in the bacterial community decreased from 66.5% to 15.2% and Desulfobacterota became the dominant species. The abundance of Methanobacteriaceae which was the dominant species in archaeal community decreased by 90%. The abundance of unassigned archaea decreased from 15% to 0. Woesearchaeales and Micrarchaeales became the dominant species of archaeal community. The result of Redundancy Analysis (RDA) showed the concentration COD and phenol were the major environmental factors influencing the abundance of microbe. The distribution of Lokiarchaeia and Asgardarchaeota were correlated with some unknown environmental factors.

     

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