Alternative stable microbiome state triggered by the introduction of functional microbes in oil reservoirs drives sustainable microbial enhanced oil recovery

[Display omitted] •The oil production increment is closely related to the reservoir microbiota status.•The oil production increases by more than 50% in alternative stable state.•Interactions among Dietzia, Bacillus and Halomonas play an important role in the shift of microbiota status.•Sufficient in...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2023-11, Vol.475, p.146073, Article 146073
Main Authors: Yin, Jun, Wei, Xiaoxia, Hu, Futang, Cheng, Changkun, Song, Maoyong, Zhuang, Guoqiang, Ma, Anzhou
Format: Article
Language:English
Subjects:
Alternative stable states
Bacillus velezensis
Microbial community
Microbial enhanced oil recovery
Microbial interactions
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Summary:[Display omitted] •The oil production increment is closely related to the reservoir microbiota status.•The oil production increases by more than 50% in alternative stable state.•Interactions among Dietzia, Bacillus and Halomonas play an important role in the shift of microbiota status.•Sufficient introduction of functional microbes can improve microbiota status to achieve sustainable oil increment. Microbial enhanced oil recovery (MEOR) is a promising substitute for other enhanced oil recovery methods in terms of sustainable development. However, the response mechanism of the microbial community to the introduction of functional microbes remains unclear, which limits MEOR strategic planning to achieve a long-term effect. In this study, we reveal the existence of alternative stable states in an oil reservoir for the first time and examine the correlation between the microbiota status and the oil production increment. There existed a basal state A and alternative state B in the reservoir microbial community, and this resulted in a differential microbial oil displacement effect. The oil production increased by up to 50% in basal state A, because Halomonas dominated most niches and restrained other functional microbes. The introduction of biosurfactant-producing bacteria triggered the microbiota status to shift to the alternative state B associated with higher oil recovery. In state B, the high microbial diversity and positive interaction among Dietzia, Bacillus and other species significantly activated the effectiveness of the microbial oil displacing function. Due to the hysteresis of the microbial community, it required frequent and intensive introduction of functional microbes to improve the microbiota in the reservoir and sustainably promote oil recovery. Overall, this study provides new insights into the response mechanism of the microbial community to the introduction of functional microbes in an oil reservoir. This study also provides guidance for effective management of a MEOR strategy to achieve sustainably enhanced oil production.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2023.146073