Looking into the world's largest elephant population in search of ligninolytic microorganisms for biorefineries: a mini-review.

IF 3.3 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Bame Rammala, Nerve Zhou
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Abstract

Gastrointestinal tracts (GIT) of herbivores are lignin-rich environments with the potential to find ligninolytic microorganisms. The occurrence of the microorganisms in herbivore GIT is a well-documented mutualistic relationship where the former benefits from the provision of nutrients and the latter benefits from the microorganism-assisted digestion of their recalcitrant lignin diets. Elephants are one of the largest herbivores that rely on the microbial anaerobic fermentation of their bulky recalcitrant low-quality forage lignocellulosic diet given their inability to break down major components of plant cells. Tapping the potential of these mutualistic associations in the biggest population of elephants in the whole world found in Botswana is attractive in the valorisation of the bulky recalcitrant lignin waste stream generated from the pulp and paper, biofuel, and agro-industries. Despite the massive potential as a feedstock for industrial fermentations, few microorganisms have been commercialised. This review focuses on the potential of microbiota from the gastrointestinal tract and excreta of the worlds' largest population of elephants of Botswana as a potential source of extremophilic ligninolytic microorganisms. The review further discusses the recalcitrance of lignin, achievements, limitations, and challenges with its biological depolymerisation. Methods of isolation of microorganisms from elephant dung and their improvement as industrial strains are further highlighted.

Abstract Image

研究世界上最大的大象种群,寻找用于生物炼制的木质素分解微生物:一个小型综述
食草动物的胃肠道(GIT)是富含木质素的环境,有可能发现降解木质素的微生物。食草动物GIT中微生物的出现是一种有充分证明的互惠关系,前者受益于营养物质的提供,后者受益于微生物辅助消化其难降解的木质素饮食。大象是最大的食草动物之一,由于它们无法分解植物细胞的主要成分,它们依靠微生物厌氧发酵其庞大、难降解的低质量饲料木质纤维素。在博茨瓦纳发现的世界上最大的大象种群中,挖掘这些互惠协会的潜力,对纸浆和纸张、生物燃料和农产工业产生的庞大的难降解木质素废物流的定价具有吸引力。尽管作为工业发酵原料具有巨大的潜力,但很少有微生物被商业化。这篇综述的重点是博茨瓦纳世界上最大的大象种群的胃肠道和排泄物中的微生物群作为极端微生物木质素分解微生物的潜在来源。该综述进一步讨论了木质素的难降解性、成就、局限性及其生物解聚的挑战。进一步强调了从大象粪便中分离微生物的方法及其作为工业菌株的改进。
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CiteScore
11.10
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