Enhancing biogas generation from lignocellulosic biomass through biological pretreatment: Exploring the role of ruminant microbes and anaerobic fungi

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-12-23 DOI:10.1016/j.anaerobe.2023.102815
R. Tamilselvan, A. Immanuel Selwynraj
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Abstract

Objectives

Biogas production from Lignocellulosic Biomass (LB) via anaerobic digestion (AD) has gained attention for its potential in self-sustainability. However, the recalcitrance of LB cell walls pose a challenge to its degradability and biogas generation. Therefore, pretreatment of LB is necessary to enhance lignin removal and increase degradability. Among the different approaches, environmentally friendly biological pretreatment ispromising as it avoids the production of inhibitors.

Methods

The ruminal microbial community, including anaerobic fungi, bacteria, and protozoa, has shown an ability to effectively degrade LB through biomechanical and microbial penetration of refractory cell structures. In this review, we provide an overview of ruminant microbes dominating LB's AD, their degradation mechanism, and the bioaugmentation of the rumen. We also explore the potential cultivation of anaerobic fungi from the rumen, their enzyme potential, and their role in AD.

Results

The rumen ecosystem, comprising both bacteria and fungi, plays a crucial role in enhancing AD. This comprehensive review delves into the intricacies of ruminant microorganisms' adhesion to plant cells, elucidates degradation mechanisms, and explores integrated pretreatment approaches for the effective utilization of LB, minimizing the impact of inhibitors. The discussion underscores the considerable potential of ruminant microbes in pretreating LB, paving the way for sustainable biogas production.

Conclusions

Optimizing fungal colonization and ligninolytic enzyme production, such as manganese peroxidase and laccase, significantly enhances the efficiency of fungal pretreatment. Integrating anaerobic fungi through bioaugmentation during mainstream processing demonstrably increases methane production. This study opens promising avenues for further research and development of these microorganisms for bioenergy production.

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通过生物预处理提高木质纤维素生物质的沼气产量:探索反刍微生物和厌氧真菌的作用
目的 通过厌氧消化(AD)从木质纤维素生物质(LB)中生产沼气,因其潜在的自我可持续性而备受关注。然而,木质纤维素细胞壁的不稳定性对其降解性和沼气生产构成了挑战。因此,有必要对枸杞进行预处理,以提高木质素去除率和降解性。方法瘤胃微生物群落(包括厌氧真菌、细菌和原生动物)通过生物力学和微生物对难降解细胞结构的渗透,显示出有效降解枸杞的能力。在这篇综述中,我们概述了在枸橼酸反式脂肪酸中占主导地位的反刍微生物、它们的降解机制以及瘤胃的生物增量。我们还探讨了从瘤胃中培养厌氧真菌的可能性、它们的酶潜能以及它们在厌氧消化中的作用。结果由细菌和真菌组成的瘤胃生态系统在增强厌氧消化中起着至关重要的作用。本综述深入探讨了反刍微生物粘附植物细胞的复杂性,阐明了降解机制,并探讨了有效利用枸杞的综合预处理方法,最大限度地减少了抑制剂的影响。讨论强调了反刍微生物在枸杞预处理方面的巨大潜力,为可持续的沼气生产铺平了道路。结论优化真菌定殖和木质素分解酶(如锰过氧化物酶和漆酶等)的生产,可显著提高真菌预处理的效率。在主流处理过程中,通过生物增殖整合厌氧真菌可明显增加甲烷产量。这项研究为进一步研究和开发这些微生物用于生物能源生产开辟了前景广阔的道路。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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