The use of biocides in some fracturing fluids raised the question of whether this type of wastewater could serve as an environment that is favorable for increasing antimicrobial resistance. "The results showed shifts in the microbial community and antibiotic resistance, but this site doesn't appear to be a new hot spot for antibiotic resistance," she said. The study generated a rich dataset from metagenomic sequencing, which pinpoints the genes in entire microbial communities, Fahrenfeld noted. Sediment samples were analyzed at the Waksman Genomics Core Facility at Rutgers. Water samples were shipped to Rutgers, where they were analyzed. The facility includes a disposal well, which injects wastewater to 2,600 feet below the surface, brine storage tanks, an access road and two lined ponds (now-closed) that were used to temporarily store wastewater to allow particles to settle before injection. And that could overwhelm local infrastructure and strain many parts of the post-fracking water cycle, including the storage, treatment, reuse, transportation or disposal of the wastewater, according to the USGS.įor the Rutgers-USGS study, water and sediment samples were collected from tributaries of Wolf Creek in West Virginia in June 2014, including an unnamed tributary that runs through an underground injection control facility. Such water is recycled, treated and discharged spread on roads, evaporated or infiltrated or injected into deep wells.įracking for natural gas and oil and its wastewater has increased dramatically in recent years. It can contain dissolved salt, petroleum and other organic compounds, suspended solids, trace elements, bacteria, naturally occurring radioactive materials and anything injected into wells, the USGS says. Liquid pumped to the surface is usually a mixture of the injected fluids with briny water from the reservoir.
During fracking, a fracturing fluid and a solid material are injected into an underground reservoir under very high pressure, creating fractures to increase the porosity and permeability of rocks. Geological Survey (USGS), whose scientists contributed to the study. Underground reservoirs of oil and natural gas contain water that is naturally occurring or injected to boost production, according to the U.S.
"I want to learn about the real risks and focus our efforts on what matters in the environment."
"I do think we're at the beginning of seeing what the impacts could be," said Fahrenfeld, who works in the School of Engineering. Much remains unknown about the impacts of wastewater from fracking, she added. "My hope is that the study could be used to start making hypotheses about the impacts of wastewater," said Nicole Fahrenfeld, lead author of the study and assistant professor in Rutgers' Department of Civil and Environmental Engineering. Moreover, microbial changes in sediments may have implications for the treatment and beneficial reuse of wastewater, the researchers say. The findings point to the need to understand the impacts on microbial ecosystems from accidental releases or improper treatment of fracking-related wastewater. The study also documented changes in antibiotic resistance in downstream sediments, but did not uncover hot spots, or areas with high levels of resistance. The shifts in the microbial community indicated changes in their respiration and nutrient cycling, along with signs of stress. The study, published recently in Science of the Total Environment, showed that wastewater releases, including briny water that contained petroleum and other pollutants, altered the diversity, numbers and functions of microbes. Rutgers' Nicole Fahrenfeld leads research documenting impacts in stream water and sediments from a wastewater disposal facility Wastewater from oil and gas operations - including fracking for shale gas - at a West Virginia site altered microbes downstream, according to a Rutgers-led study.
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