Hydraulic fracturing, or 鈥渇racking,鈥 a natural gas and oil extraction method that has been used throughout the country for more than a decade, is episodically reducing small Eastern Ohio River basin stream levels, an 好色先生TV University study found. The fluctuations, the authors warn, could be negatively impacting aquatic life in those areas 鈥 a situation that, if confirmed by more studies and monitoring, would warrant additional environmental protection measures.
The multidisciplinary research, one of the first studies of its kind regarding fracking鈥檚 effects on smaller watershed levels in this particular region, was conducted by civil engineering major Brady Harmon; Lauren H. Logan, Ph.D., assistant professor of civil and environmental engineering; Christopher Spiese, Ph.D., associate professor of chemistry and assistant dean for the College of Arts & Sciences; and Ryan Rahrig, Ph.D., associate professor of math and statistics.
Fracking requires significant amounts of water, combined with sand and chemical additives, pumped at high pressure to extract natural resources from subterranean shale formations. Extreme flow reductions in the studied streams occur infrequently and episodically, the researchers found, but 鈥渃ould have lasting negative impacts on the stream biota鈥 and 鈥渉ave the potential to affect downstream users, including regionally-endangered species. The stream ecosystem might be severely impacted,鈥 they report. The authors note that the smaller streams scrutinized, where most UOG (unconventional oil and gas) wells are located, 鈥渁re much more susceptible to change than larger streams and rivers.鈥
Modeling revealed that 10% and 20% reductions occurred at least episodically in about half of the watersheds analyzed, amounting to 8.8% and 2.4% of active days. A consistent 9% or greater reduction in baseflow 鈥渃ould completely change the aquatic habit in smaller streams, and render spaces uninhabitable for many of the species which live there presently,鈥 the study asserts.
UOG impacts on streamflow have mostly been studied in water-scarce regions such as Texas. The limited amount of such studies in water-rich areas have mostly focused on freshwater input quantities or production of flowback, the ONU study notes. For this latest research, government data itself was limited because of Ohio鈥檚 patchwork nature of water withdrawal regulations and noncomprehensive permitting requirements.
The results yielded some surprises for the researchers.
Spiese said he was surprised at 鈥渉ow widespread the flow reductions were. Around half of the streams had significant reductions during fracking operations. I was also naively surprised at how difficult it was to find water source locations for well pad permits,鈥 he added. 鈥淲ith the sheer scope of fracking operations in Ohio alone, it is almost impossible to actually track where the water is coming from specifically.鈥
Logan said fracking regulations are always a shock to her. 鈥淥n the one hand, we have reporting requirements in place which provide us with vast datasets on water quality, quantity, and more in the United States. And on the other hand, we are severely lacking in fracking data in regions like Southeast Ohio,鈥 she said. The requirements and permit tracking vary by state. In Ohio, laws and proposed legislation remain in flux and can be contradictory. For instance, House Bill 57 opens state lands, including state parks, to fracking, but Spiese said 鈥渟everal environmental groups recently sued the state to block this law going into effect until rules are established to regulate such leases.鈥
According to the American Oil & Gas Historical Society, the first commercial hydraulic fracturing of an oil well took place in 1949 in Oklahoma. Yet the drilling method didn鈥檛 substantially increase in Eastern Ohio鈥檚 portion of the Marcellus and Utica shale formations until about a decade ago. At that time, companies using the method predicted it would create an economic boom. Since then, the public has received it with mixed feelings, owing in large part to its underground and surface-level environmental impact, which studies like ONU鈥檚 are continuing to address.
In places like Guernsey County, evidence of fracking is pervasive, Spiese said. 鈥淎lthough it is sometimes billed as having a small footprint, wells are everywhere. Trucks carrying materials to and from the well pads fly down the roads. Gas pipelines and compressor stations poke up randomly all over the area,鈥 he explained.
ONU鈥檚 study originated from Spiese鈥檚 water quality work with the American Geophysical Union鈥檚 program Thriving Earth Exchange (TEX). Spiese became the scientific lead on a project examining water quality and quantity issues in and around Cambridge, Ohio, which then expanded into Barnesville, Ohio and Southwestern Pennsylvania. Their team included Leatra Harper from FreshWater Accountability Project, a nonprofit dedicated to protecting freshwater resources. Working with the TEX team, 鈥淚 eventually expanded the research to encompass the entire Ohio River basin that is underlain by shale formations,鈥 Spiese said.
Logan鈥檚 fracking expertise stems from her studies, which have provided her with additional perspective from what she experienced as a child growing up in Athens, Ohio, not far from where fracking occurs. She learned about the method during graduate school; a hydrogeology course taught about the science and mechanics of fracking and the potential for water reduction in the surrounding area. Her Ph.D. research focused on ecological impacts in waterways from power infrastructure.
鈥淢y dissertation research highlighted thermal pollution from thermoelectric power plants (e.g. coal, nuclear and natural gas), but I had always wanted to dig deeper, pun intended, into fracking and its impact on waterways,鈥 she said.
Logan remembers an anti-fracking billboard that appeared in her region when she was a child, suggesting the water was not safe to drink. There are places in the U.S. where this is the case, such as the lead problem in Flint, Michigan, and when algae blooms occur in Lake Erie, she said, but are considered outliers among the larger U.S. drinking water infrastructure. As a scientist, she now knows about the regulatory measures to keep people safe. 鈥淭he U.S. public water supplies are tested daily and follow the Safe Drinking Water Act requirements. 鈥hat anti-fracking billboard scared me. Now, as an adult, for me it isn鈥檛 about whether fracking is right or wrong, but about how we manage wells and accurately report the impacts in a scientific, but also easy-to-understand way,鈥 she said.
Rahrig鈥檚 mathematical work proved integral to data deciphering and translation. He said he enjoyed the interdisciplinary nature of the research.
鈥淎s a statistician, I welcome opportunities to collaborate with faculty in their research areas,鈥 said Rahrig. 鈥淭his project involved a very large amount of data, and I enjoyed developing and implementing methods that enabled the information to be analyzed thoroughly. 鈥
Spiese and Logan said this study was conducted from a purely scientific perspective, with no policy approach in mind, but that doesn鈥檛 mean its results couldn鈥檛 have additional impact.
鈥淎s a scientist, I aim to be an honest broker 鈥 I don鈥檛 have an agenda,鈥 Spiese said. 鈥淚鈥檓 not out here as a firm anti-fracking warrior, but neither am I a pro-fracking fanatic. I want to present the data so that it informs debates and hopefully leads to better policies and conclusions.鈥 He said while he鈥檚 presented their findings at multiple conferences, Harper has also shared their work with other environmental groups and sent some commissioned reports to all Ohio legislators.
Logan teaches fracking in her geotechnical engineering course. 鈥淒isseminating the information to future engineers, with a balanced and fair representation, is key to the continuation of fracking research,鈥 Logan adds. 鈥淚n fact, this is why I brought Brady Harmon into the project since he is planning to pursue graduate studies in the future with a focus on environmental engineering.鈥
And, 鈥渙ne can always do more research!鈥 Logan pointed out. 鈥淭he question becomes, 鈥榃hich question should we ask next?鈥 How can we take the results from this work and move forward to increase our understanding of the water impacts from hydraulic fracking?鈥
This story is part of a series on sustainability efforts and studies at 好色先生TV University.