利用微生物联合体、牛粪和牛消化液对玉米秸秆进行厌氧协同消化,生产高附加值化学品。

IF 2.5 3区 生物学 Q3 MICROBIOLOGY
Farrukh Raza Amin , Habiba Khalid , Jingjing Wang , Yaxiang Li , Longxue Ma , Wuxi Chen , Yu Duan , Yida Zhai , Demao Li
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引用次数: 0

摘要

研究目的本研究调查了玉米秸秆 (CS) 与牛粪 (CM)、牛消化液 (CD) 和菌株联合体 (SC) 共同消化以提高挥发性脂肪酸 (VFA) 产量的情况。本研究的目的是开发一种提高挥发性脂肪酸产量的可持续技术,研究微生物试剂与 CS 的结合如何影响功能微生物的挥发性脂肪酸产量,并评估通过联合消化提高微生物多样性的可行性:批量实验评估了 CS 底物与 CM、CD 和 SC 不同组合的 VFA 生产动态和微生物群落变化。分析方法包括用气相色谱法测量 VFAs,用标准方法测量氨氮和 COD,用 16S rRNA 基因测序法分析微生物群落:结果:将 CS 与微生物群落共混,可获得 0.6-1.0 克/升的初始挥发性脂肪酸(VFA)浓度,高于其他组合(0.05-0.3 克/升)。加入 CM 和 CD 后,挥发性脂肪酸的产量进一步提高到 1.0-2.0 克/升,所有四种基质共同消化时的最高值为 2.0 克/升。氨氮显著降低(从 194-241 mg/L 降至 29-37 mg/L),化学需氧量显著降低(从 3310-5250 mg/L 降至 730-1210 mg/L)。与其他联合菌群(2.26)相比,与 CM 和 CD 联合消化的香农多样性指数(3.19-3.24)更高。在有机物分解过程中,梭状芽孢杆菌发挥了关键作用:这项研究证明了通过厌氧联合消化木质纤维素和动物废物流来提高挥发性脂肪酸产量和利用微生物多样性的可行性。联合消化大大提高了以丁酸为主的挥发性脂肪酸产量,降低了氨氮和化学需氧量,并丰富了纤维降解菌和发酵菌。这些发现有助于优化可持续废物管理和高价值化学品生产的联合消化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

High value-added chemical production through anaerobic codigestion of corn straw with a microbial consortium, cow manure and cow digestion solution

High value-added chemical production through anaerobic codigestion of corn straw with a microbial consortium, cow manure and cow digestion solution

Objectives

This study investigated the codigestion of corn straw (CS) with cow manure (CM), cow digestion solution (CD), and a strain consortium (SC) for enhanced volatile fatty acid (VFA) production. The aims of this study were to develop a sustainable technique to increase VFA yields, examine how combining microbial reagents with CS affects VFA production by functional microorganisms, and assess the feasibility of improving microbial diversity through codigestion.

Methods

Batch experiments evaluated VFA production dynamics and microbial community changes with different combinations of CS substrates with CM, CD, and SC. Analytical methods included measuring VFAs by GC, ammonia and chemical oxygen demand (COD) by standard methods and microbial community analysis by 16S rRNA gene sequencing.

Results

Codigesting CS with the strain consortium yielded initial VFA concentrations ranging from 0.6 to 1.0 g/L, which were greater than those of the other combinations (0.05–0.3 g/L). Including CM, and CD further increased VFA production to 1.0–2.0 g/L, with the highest value of 2.0 g/L occurring when all four substrates were codigested. Significant ammonium reduction (194–241 mg/L to 29–37 mg/L) and COD reduction (3310–5250 mg/L to 730–1210 mg/L) were observed. Codigestion with CM and CD had greater Shannon diversity indices (3.19–3.24) than did codigestion with the other consortia (2.26). Bacillota dominated (96.5–99.6 %), with Clostridiales playing key roles in organic matter breakdown.

Conclusions

This study demonstrated the feasibility of improving VFA yields and harnessing microbial diversity through anaerobic codigestion of lignocellulosic and animal waste streams. Codigestion substantially enhanced VFA production, which was dominated by butyrate, reduced ammonium and COD, and enriched fiber-degrading and fermentative bacteria. These findings can help optimize codigestion for sustainable waste management and high-value chemical production.

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来源期刊
Anaerobe
Anaerobe 生物-微生物学
CiteScore
5.20
自引率
8.70%
发文量
137
审稿时长
76 days
期刊介绍: Anaerobe is essential reading for those who wish to remain at the forefront of discoveries relating to life processes of strictly anaerobes. The journal is multi-disciplinary, and provides a unique forum for those investigating anaerobic organisms that cause infections in humans and animals, as well as anaerobes that play roles in microbiomes or environmental processes. Anaerobe publishes reviews, mini reviews, original research articles, notes and case reports. Relevant topics fall into the broad categories of anaerobes in human and animal diseases, anaerobes in the microbiome, anaerobes in the environment, diagnosis of anaerobes in clinical microbiology laboratories, molecular biology, genetics, pathogenesis, toxins and antibiotic susceptibility of anaerobic bacteria.
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