Utilisation of low methane concentrations by methanotrophs.

Advances in microbial physiology Pub Date : 2024-01-01 Epub Date: 2024-05-27 DOI:10.1016/bs.ampbs.2024.04.005
Lian He, Mary E Lidstrom
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Abstract

The growing urgency regarding climate change points to methane as a key greenhouse gas for slowing global warming to allow other mitigation measures to take effect. One approach to both decreasing methane emissions and removing methane from air is aerobic methanotrophic bacteria, those bacteria that grow on methane as sole carbon and energy source and require O2. A subset of these methanotrophs is able to grow on methane levels of 1000 parts per million (ppm) and below, and these present an opportunity for developing both environmental- and bioreactor-based methane treatment systems. However, relatively little is known about the traits of such methanotrophs that allow them to grow on low methane concentrations. This review assesses current information regarding how methanotrophs grow on low methane concentrations in the context of developing treatment strategies that could be applied for both decreasing methane emissions and removing methane from air.

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甲烷营养体对低浓度甲烷的利用。
气候变化的紧迫性日益突出,这表明甲烷是减缓全球变暖的关键温室气体,使其他减缓措施能够发挥作用。减少甲烷排放和清除空气中甲烷的一种方法是好氧的甲烷营养细菌,这些细菌以甲烷为唯一的碳和能量来源并需要氧气。这些甲烷营养细菌中的一个子集能够在甲烷含量为百万分之 1000 (ppm) 或更低的条件下生长,这为开发基于环境和生物反应器的甲烷处理系统提供了机会。然而,人们对这类甲烷营养体能够在低浓度甲烷条件下生长的特性知之甚少。本综述从开发可用于减少甲烷排放和从空气中去除甲烷的处理策略的角度,评估了有关甲烷营养体如何在低浓度甲烷条件下生长的现有信息。
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