Tuesday, August 13, 2013: 3:00 PM
Spinnaker (Sheraton San Diego)
The Barnett Shale in north central Texas contains natural gas generated by high temperatures (120 to 150°C) during the Mississippian Period (300 to 350 million years ago). We monitored the structure, abundance, and activity of microbial communities associated with drilling, hydraulic fracturing, and early stages of production in multiple wells in the Barnett shale. Our goal was to identify how current field practices modulates bacterial community in the Barnett, and how such an understanding could lead to practical recommendations for controlling the deleterious effect of microorganisms e.g. souring, biocorrosion. We demonstrate that: 1. The current mud formulation practices and chemical composition stimulates microbial growth in drilling waters and primes the microbial community for survival in the shale formation, 2. During hydraulic fracturing, biocide treatments does not eliminate all bacteria from waters injected to the formation, and the bacterial community recovered in flowback water is highly adapted to the in-situ conditions in the formation and could potentially be for tracking frac water contamination and frac water elemental composition. And 3. Bacterial communities developed in above ground production facilities are distinct and highly dissimilar to bacterial communities in drilling and hydraulic fracturing fluids. Finally, several of the phylotypes observed in this study belonged to lineages that were thought to be indigenous to marine and terrestrial fossil fuel formations. Our results suggest a possible alternative exogenous origin of such phylotypes via enrichment and introduction to oil and natural gas reservoirs during the drilling and hydraulic fracturing processes.