Nitrogen Fate and Adaptation of the Microbial Community Responsible for Ammonia Removal in a Biofilter Treating Waste Gas from Livestock Manure Composting

IF 0.3 4区 农林科学 Q4 AGRICULTURE, MULTIDISCIPLINARY Jarq-japan Agricultural Research Quarterly Pub Date : 2022-01-01 DOI:10.6090/jarq.56.25
Tomoko Yasuda, Y. Fukumoto, K. Kuroda, D. Hanajima, M. Waki, Kazuyoshi Suzuki
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引用次数: 2

Abstract

Treating NH 3 -loaded gases is necessary for improved livestock management. Nitrification, the sequential oxidation of NH 3 to NO 3 − via NO 2 − , is an important microbial process for effective long-term NH 3 removal. Denitrification, a microbial respiration process that reduces NO 3 − and NO 2 − to N 2 under anaerobic conditions, can also contribute to nitrogen conversion in biofiltration systems. Understanding these microbial processes is imperative to control NH 3 removal better and achieve nitrogen balance in biofiltration. In this review, we discuss the functions and compositions of the microbial community responsible for nitrification and denitrification in a biofiltration system, along with the relationship between these processes and the nitrogen mass balance. Our results indicate that both nitrification and denitrification could be achieved by a consortium of microbes well adapted to the ecosystem in a full-scale biofilter. Moreover, the microbial community was controlled by substrate availability. Nitrogen removal potential was up to 39% in a laboratory-scale biofilter with intermittent water recirculation, and the unknown nitrogen loss was considered mainly denitrified. Under gradual accumulation of nitrogenous compounds, the gamma proteobacterial group contributes to NH 3 oxidization. These findings will improve our understanding of microbial fluctuations and the complex behavior of nitrifiers and denitrifiers within an NH 3 -loaded biofiltration system.
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生物过滤器处理禽畜粪便堆肥废气中氮的归宿和负责氨去除的微生物群落的适应
处理含nh3气体对于改善牲畜管理是必要的。硝化作用是将nh3通过no2 -连续氧化为no3 -,是长期有效去除nh3的重要微生物过程。反硝化是一种在厌氧条件下将no3 -和no2 -还原为n2的微生物呼吸过程,也有助于生物过滤系统中的氮转化。了解这些微生物过程对于更好地控制nh3的去除和实现生物过滤中的氮平衡是必要的。本文综述了生物过滤系统中负责硝化和反硝化的微生物群落的功能和组成,以及这些过程与氮质量平衡的关系。我们的研究结果表明,硝化和反硝化都可以在一个全尺寸的生物过滤器中由一群适应生态系统的微生物来实现。此外,微生物群落受底物有效性的控制。间歇式水循环生物滤池对氮的去除率高达39%,未知的氮损失主要被认为是反硝化。在氮化合物逐渐积累的情况下,γ变形菌群有助于nh3氧化。这些发现将提高我们对nh3负载生物过滤系统中微生物波动和硝化菌和反硝化菌复杂行为的理解。
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来源期刊
Jarq-japan Agricultural Research Quarterly
Jarq-japan Agricultural Research Quarterly 农林科学-农业综合
CiteScore
1.00
自引率
25.00%
发文量
42
审稿时长
>36 weeks
期刊介绍: The Japan Agricultural Research Quarterly (JARQ) is a publication of the Japan International Research Center for Agricultural Sciences (JIRCAS), which provides readers overseas with the latest information on key achievements and developments in agricultural research in Japan, with the expectation that this information would contribute to the agricultural development of countries in tropical and subtropical regions.
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