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The Microbial Community and Functional Potential in the Midland Basin Reveal a Community Dominated by Both Thiosulfate and Sulfate-Reducing Microorganisms

Kara Tinker, Daniel Lipus, James Gardiner, Mengling Stuckman, Djuna Gulliver

2022Microbiology Spectrum15 citationsDOIOpen Access PDF

Abstract

The Permian Basin is the largest producing oil and gas region in the United States and plays a critical role supplying national energy needs. Previous work in other basins has demonstrated that the geochemistry and microbiology of hydrocarbon regions can have a major impact on well infrastructure and production. Despite that, little work has been done to understand the complex dynamics present in the Permian Basin. This study characterizes and analyzes 10 unique wells and one groundwater sample in the Permian Basin using geochemical and microbial techniques. Across all wells we found a high number of classic and thiosulfate reducers, suggesting that hydrogen sulfide production may be especially prevalent in the Permian Basin. Additionally, our analysis revealed a biogeochemical signal impacted by the presence of frac hits, or interwell communication events where an established well is affected by the pumping of fracturing fluid into a new well. This information can be utilized by the oil and gas industry to improve oil recovery efforts and minimize commercial and environmental costs.

Topics & Concepts

Structural basinThiosulfateMicrobial population biologySulfateMicroorganismPermianWork (physics)Environmental scienceGeologyEcologyGeographyGeochemistryEnvironmental protectionEarth scienceBiologyChemistryBacteriaPaleontologySulfurEngineeringMechanical engineeringOrganic chemistryHydrocarbon exploration and reservoir analysisAtmospheric and Environmental Gas DynamicsMethane Hydrates and Related Phenomena
The Microbial Community and Functional Potential in the Midland Basin Reveal a Community Dominated by Both Thiosulfate and Sulfate-Reducing Microorganisms | Litcius