Impact on the microbial population during biological volatile fatty acid production from olive mill solid waste

E. Jiménez-Páez, A. Serrano, J. Purswani, D. Correa-Galeote, J. Cubero-Cardoso, F.G. Fermoso
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Abstract

Volatile fatty acids (VFAs) revalorisation from waste products are key in achieving industrial sustainability and circular economic goals. Hence, the objective of this work was to correlate the adaptability of the microbial community in olive mill solid waste (OMSW) anaerobic fermentation processes, to the production of VFAs under different pH conditions, i.e. under acidic (pH 4 &5), neutral (pH 6 & 7) and alkaline conditions (pH 9 & 10). At neutral conditions, anaerobic digestion exhibited minimal accumulation of VFAs, as they were primarily biotransformed to methane, where no significant changes in the microbial community were observed. At acidic conditions, a diverse profile of VFAs were present in the reactors, although the VFA production was limited to around 20% of fed OMSW. Despite the low accumulation, the VFA profile at pH 5 was more complex than those at alkaline conditions, accounting propionic acid as the main VFA compound produced at pH 5 (60% of the total VFAs). Acidic conditions entailed a shift in the microbial composition compared to the initial inoculum, although the reactors maintained similar diversity indices. At alkaline conditions, around 50% of the fed OMSW was accumulated as VFAs, mainly as acetic acid. Overall, a lower diversity and higher dominance corresponded to a less diverse VFAs profile, such as the preponderance of acetic acid correlated with a microbial diversity decrease and the increased dominance of Tissirella.
橄榄厂固体废弃物生物挥发性脂肪酸生产过程中对微生物种群的影响
从废物中回收挥发性脂肪酸(VFAs)是实现工业可持续性和循环经济目标的关键。因此,这项工作的目的是将橄榄厂固体废物(OMSW)厌氧发酵过程中微生物群落的适应性与不同pH条件下VFAs的产生联系起来,即酸性(pH 4和5),中性(pH 6和7)和碱性条件(pH 9和10)。在中性条件下,厌氧消化表现出最小的VFAs积累,因为它们主要被生物转化为甲烷,在微生物群落中没有观察到显著变化。在酸性条件下,反应器中存在多种VFA,尽管VFA的产量被限制在投料固体固体的20%左右。尽管积累量较低,但pH 5条件下的VFA谱比碱性条件下的VFA谱更为复杂,pH 5条件下产生的VFA主要为丙酸(占总VFA的60%)。与初始接种量相比,酸性条件导致了微生物组成的变化,尽管反应器保持了相似的多样性指数。在碱性条件下,饲料中约50%的沼液以VFAs的形式积累,主要以乙酸的形式积累。总体而言,较低的多样性和较高的优势度对应于较少的VFAs分布,例如乙酸的优势与微生物多样性的降低和Tissirella的优势度增加相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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