对氢供应有限的反硝化厌氧膜生物膜反应器的生物膜生态学和功能的多维洞察

IF 5.4 3区 材料科学 Q2 CHEMISTRY, PHYSICAL ACS Applied Energy Materials Pub Date : 2024-09-18 DOI:10.1016/j.ibiod.2024.105927
Yuanyuan Zhang , Jingjuan Yang , Minmin Jiang , Xiangmin Li , Yuchao Chen , Xingru Dai , Qiaoyan Wei , Mei Chen , Xuehong Zhang , Junjian Zheng
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引用次数: 0

摘要

使用死端中空纤维膜(HFMs)的厌氧膜生物膜反应器(An-MBfR)不可避免地会因惰性气体的反向扩散而导致向生物膜提供的气体电子供体有限。由于活性气体供应有限,安-MBfR 的生物膜形成和去污性能的微生物机理在文献中仍然模糊不清。在此,我们从多维角度研究了基于 H2 的反硝化 An-MBfR 中生物膜生态和功能的演变规律。结果表明,尽管反应器的运行参数设置在最佳值,但高频膜上仍形成了不均匀的生物膜,其变化趋势是:随着与近气端距离的增加,生物膜的厚度和生物量都在减少,形态也由紧密变为疏松。养氢型反硝化细菌(DNB)由于生物膜的 H2 供应有限,无法产生丰富的胞外聚合物质(EPS),导致 EPS 中的蛋白质/多糖(PN/PS)比值过高,不利于生物膜的生长;其增殖速度减慢,尤其是在远气端生物膜的外层。异养型 DNB 在生物膜外层而非内层的繁殖更为活跃,这归因于 PN 和 PS 的大量存在以及 NO3- 供应的增加。与生物膜形成和 NO3-还原相关的功能基因丰度的变化趋势与生物膜特征和 DNB 分布的演变规律非常吻合。这些研究结果为反硝化安-MBfR 的生物膜结构和微生物相互作用提供了机理上的启示。
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Multidimensional insights into biofilm ecology and function of a denitrifying anaerobic membrane biofilm reactor with limited hydrogen supply

The anaerobic membrane biofilm reactor (An-MBfR) using dead-end hollow fiber membranes (HFMs) inevitably suffers the limited supply of gaseous electron donors to biofilms, as a result of the back-diffusion of inert gases. The microbial mechanisms, underlying the biofilm formation and decontamination performance of the An-MBfR disadvantaged by limited active gas supply, are still obscure in the literature. Herein, we investigated the evolution laws of biofilm ecology and function in a denitrifying H2-based An-MBfR, from a multidimensional perspective. Results showed that despite the operating parameters of the reactor were set at the optimal values, the ununiform biofilms were developed on the HFMs, exhibiting a variation trend that with increasing distance from the near-gas end, the thickness and biomass of biofilms were decreased accompanied by their morphological change from the compacted to loosened. As hydrogenotrophic denitrifying bacteria (DNB) suffered limited H2 supply to the biofilm, they could not produce abundant extracellular polymeric substances (EPS) and result in a high ratio of protein/polysaccharide (PN/PS) ratio in the EPS to facilitate the biofilm growth; their proliferation slowed down, especially in the outer layer of the biofilm at the far-gas end. The propagation of heterotrophic DNB was more active in the outer layer rather than inner layer of biofilms, ascribed to the abundant presence of PN and PS as well as increased NO3 availability. The variation trends in abundance of functional genes pertinent to the biofilm formation and NO3 reduction coincided well with the evolution laws of biofilm characteristics and DNB distribution. The findings provided mechanistic insights into the biofilm structure and microbial interaction in the denitrifying An-MBfR.

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来源期刊
ACS Applied Energy Materials
ACS Applied Energy Materials Materials Science-Materials Chemistry
CiteScore
10.30
自引率
6.20%
发文量
1368
期刊介绍: ACS Applied Energy Materials is an interdisciplinary journal publishing original research covering all aspects of materials, engineering, chemistry, physics and biology relevant to energy conversion and storage. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important energy applications.
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