[1]安彤 吴宗林 庞悦 孙照勇 苟敏**.【综 述】导电材料强化挥发性脂肪酸互营氧化产甲烷菌群的种间直接电子传递研究进展[J].应用与环境生物学报,2021,27(03):1-9.[doi:10.19675/j.cnki.1006-687x.2020.06009]
AN Tong,WU Zonglin,PANG Yue,et al.A review of direct interspecies electron transfer strengthened by conductive materials between syntrophic methanogenesis communit ies of volatile fatty acids[J].Chinese Journal of Applied & Environmental Biology,2021,27(03):1-9.[doi:10.19675/j.cnki.1006-687x.2020.06009]
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【综 述】导电材料强化挥发性脂肪酸互营氧化产甲烷菌群的种间直接电子传递研究进展()
AN Tong,WU Zonglin,PANG Yue,et al.A review of direct interspecies electron transfer strengthened by conductive materials between syntrophic methanogenesis communit ies of volatile fatty acids[J].Chinese Journal of Applied & Environmental Biology,2021,27(03):1-9.[doi:10.19675/j.cnki.1006-687x.2020.06009]
《应用与环境生物学报》[ISSN:1006-687X/CN:51-1482/Q]
- 卷:
- 27卷
- 期数:
- 2021年03期
- 页码:
- 1-9
- 栏目:
- 简报
- 出版日期:
- 2021-06-25
文章信息/Info
- Title:
- A review of direct interspecies electron transfer strengthened by conductive materials between syntrophic methanogenesis communit ies of volatile fatty acids
- Keywords:
- anaerobic digestion; volatile fatty acid s; carbon materials; iron materials; direct interspecies electron transfer
- 摘要:
- 挥发性脂肪酸(Volatile fatty acid, VFA)降解是厌氧消化的限速步骤,其产甲烷效率取决于微生物的种间电子传递能力。种间直接电子传递(Direct interspecies electron transfer, DIET)克服了种间氢/甲酸电子转移的热力学限制,可加速VFA降解产甲烷过程。本文基于微生物利用自身结构(如纳米导线、细胞色素c及其他蛋白组分等)进行DIET的原理,综述了外源添加导电材料对VFA厌氧消化产甲烷过程中DIET的强化效果及作用机制。主要结论如下:碳材料和铁材料均能有效提高厌氧消化体系的甲烷产率,并缩短VFA的降解时间;碳材料通过替代纳米导线或富集具有DIET能力的微生物(如地杆菌)来实现DIET的强化。但不同类型铁材料的DIET强化机制存在着差异:磁铁矿的作用包括替代细胞色素c、诱导与DIET相关蛋白质的表达以及富集DIET微生物等;赤铁矿和针铁矿也可富集DIET微生物,此外赤铁矿还可促进细胞聚集体的形成及稳定,使DIET的进行更加有利。未来应进一步探究地杆菌以外微生物的DIET能力及作用机制,并优化导电材料强化厌氧消化产甲烷的工艺,以加速有机废弃物的高效资源化处理进程。
- Abstract:
- The degradation of volatile fatty acid (VFA) is the rate -limiting step of anaerobic digestion, and its methane production efficiency depends on the ability of interspecific electron transport. Direct interspecies electron transfer (DIET) can overcome the thermodynamic limitation of interspecies hydrogen/ formate transfer and accelerate the methane production via VFA degradation . Based on the principle that microorganisms use their own structures (such as nanowires, Cytochrome c and other protein components) to carry out DIET, this article summarized the strengthening effect and mechanism of DIET in the methanogenesis process of VFA anaerobic digestion by adding conductive materials. The main conclusions are as follows: carbon and iron materials can increase the methane generation in anaerobic digestion system effectively, and shorten the degradation time of VFA; carbon materials can enhance DIET by replacing nanowires or enriching microorganisms with the ability of DIET (such as Geobacter). However, there are differences in the mechanism of DIET enhancement among different types of iron materials: the role of magnetite includes replacing Cytochrome c, inducing the expression of proteins related to DIET and enriching the microorganisms; hematite and goethite can also enrich the microorganisms related to DIET, in addition, hematite can promote the formation and stabilization of aggregation, which makes the development of DIET more favorable. In the future, it is necessary to further explore the microorganisms with the capacity of DIET and the mechanism other than Geobacter, and optimize the process of anaerobic digestion with conductive materials, so as to accelerate the?efficiency?and?resource?utilization process of organic waste.
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备注/Memo
- 备注/Memo:
-
收稿日期 Received: 2020-06-05 接受日期 Accepted: 2020-07-23
科技部政府间国际科技创新合作重点专项(2016YFE0127700)、成都市科技惠民计划项目(2016-HM01-00244-SF) 资助 Supported by the Ministry of Science and Technology of China (No.2016YFE0127700) and Chengdu Science and Technology bureau (No. 2016-HM01-00244-SF)
**通讯作者 Corresponding author (E-mail: goumin@scu.edu.cn)
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