Effects of municipal waste compost on microbial biodiversity and energy production in terrestrial microbial fuel cells

IF 4.5 2区 生物学 Q1 BIOCHEMICAL RESEARCH METHODS New biotechnology Pub Date : 2023-10-22 DOI:10.1016/j.nbt.2023.10.009
Gian Luigi Garbini , Anna Barra Caracciolo , Ludovica Rolando , Andrea Visca , Domenico Borello , Carlotta Cosentini , Gabriele Gagliardi , Ioannis Ieropoulos , Paola Grenni
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Abstract

Microbial Fuel Cells (MFCs) transform organic matter into electricity through microbial electrochemical reactions catalysed on anodic and cathodic half-cells. Terrestrial MFCs (TMFCs) are a bioelectrochemical system for bioelectricity production as well as soil remediation. In TMFCs, the soil is the ion-exchange electrolyte, whereas a biofilm on the anode oxidises organic matter through electroactive bacteria. Little is known of the overall microbial community composition in a TMFC, which impedes complete exploitation of the potential to generate energy in different soil types. In this context, an experiment was performed to reveal the prokaryotic community structure in single chamber TMFCs with soil in the presence and absence of a municipal waste compost (3% w/v). The microbial community was assessed on the anode and cathode and in bulk soil at the end of the experiment (54 days). Moreover, TMFC electrical performance (voltage and power) was also evaluated over the experimental period, varying the external resistance to improve performance. Compost stimulated soil microbial activity, in line with a general increase in voltage and power. Significant differences were observed in the microbial communities between initial soil conditions and TMFCs, and between the anode, cathode and bulk soil in the presence of the compost. Several electroactive genera (Bacillus, Fulvivirga, Burkholdeira and Geobacter) were found at the anode in the presence of compost. Overall, the use of municipal waste compost significantly increased the performance of the MFCs in terms of electrical power and voltage generated, not least thanks to the selective pressure towards electroactive bacteria on the anode.

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城市垃圾堆肥对陆生微生物燃料电池微生物多样性和能量产生的影响。
微生物燃料电池(MFC)通过在阳极和阴极半电池上催化的微生物电化学反应将有机物转化为电能。陆地MFC(TMFC)是一种用于生物发电和土壤修复的生物电化学系统。在TMFC中,土壤是离子交换电解质,而阳极上的生物膜通过电活性细菌氧化有机物。对TMFC中的整体微生物群落组成知之甚少,这阻碍了在不同土壤类型中充分利用发电潜力。在这种情况下,进行了一项实验,以揭示在存在和不存在城市垃圾堆肥(3%w/v)的情况下,具有土壤的单室TMFC中的原核群落结构。在实验结束时(54天),对阳极和阴极以及大块土壤中的微生物群落进行了评估。此外,在实验期间,还评估了TMFC的电气性能(电压和功率),改变外部电阻以提高性能。堆肥刺激了土壤微生物活性,与电压和功率的普遍增加一致。在初始土壤条件和TMFC之间,以及在堆肥存在的情况下,阳极、阴极和大块土壤之间的微生物群落存在显著差异。在堆肥存在的情况下,在阳极处发现了几个具有电活性的属(芽孢杆菌属、富尔维维加属、伯克霍尔德菌属和地杆菌属)。总的来说,城市垃圾堆肥的使用显著提高了MFC在产生的电力和电压方面的性能,尤其是由于阳极上对电活性细菌的选择性压力。
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来源期刊
New biotechnology
New biotechnology 生物-生化研究方法
CiteScore
11.40
自引率
1.90%
发文量
77
审稿时长
1 months
期刊介绍: New Biotechnology is the official journal of the European Federation of Biotechnology (EFB) and is published bimonthly. It covers both the science of biotechnology and its surrounding political, business and financial milieu. The journal publishes peer-reviewed basic research papers, authoritative reviews, feature articles and opinions in all areas of biotechnology. It reflects the full diversity of current biotechnology science, particularly those advances in research and practice that open opportunities for exploitation of knowledge, commercially or otherwise, together with news, discussion and comment on broader issues of general interest and concern. The outlook is fully international. The scope of the journal includes the research, industrial and commercial aspects of biotechnology, in areas such as: Healthcare and Pharmaceuticals; Food and Agriculture; Biofuels; Genetic Engineering and Molecular Biology; Genomics and Synthetic Biology; Nanotechnology; Environment and Biodiversity; Biocatalysis; Bioremediation; Process engineering.
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