Environment

UT Study: Permian Seismic Activity Up Dramatically

New research links a rise in seismic activity in West Texas with increased oil and gas development over the past 20 years and, in particular, the past decade.

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Well pads dot the landscape in the Permian Basin of West Texas, the world’s busiest oil region. Source: Getty Images.

New research links a rise in seismic activity in West Texas with increased oil and gas development over the past 20 years and, in particular, the past decade.

The study, published 4 November and conducted by the University of Texas (UT) as well as several other universities, leverages old, unmined data to track seismic activity near Pecos, Texas, suggesting “a causal link” in which hydraulic fracturing work and fluid waste disposal “influence subsurface pressures regionally, leading to stress changes and earthquakes,” the research says.

Researchers documented more than 7,000 seismic events near Pecos. Multiple events started occurring in 2009 when 19 events of at least magnitude 1 were recorded. The rate increased over time, with more than 1,600 events of magnitude 1 or greater spotted in 2017 as the industry rebounded from the commodity price downturn. However, most of the seismic events were so small that no one felt them.

Analysis of seismograms shows the 2009 events had focal depths of 4–5.2 km below sea level, within or just below strata where oil and gas are produced and wastewater is injected. The largest event was magnitude 3.7, “but the recent high activity rates suggest that greater magnitudes may be possible,” the study says.

While the statewide TexNet earthquake monitoring system provided data going back to 2017, researchers were able to find older seismic records of the area by accessing the TXAR system near Lajitas, Texas, about 150 miles to the south of Pecos.

TXAR is an array of 10 seismographs installed in the 1990s by scientists at Southern Methodist University (SMU) to help track nuclear testing across the world. SMU scientist Chris Hayward developed a method to derive the earthquake data from the international data TXAR collects and build an earthquake catalog for the Delaware Basin near Pecos from 2000 to 2017.

“West Texas now has the highest seismicity rates in the state,” said co-author and SMU Associate Professor Heather DeShon. “What remained uncertain is when the earthquakes actually started. This study addresses that.”

This study is the latest in a comprehensive effort to determine what is causing an increase in seismic activity in Texas and how upstream operations can be managed to minimize the human-induced element. A study published earlier this year by UT and SMU indicates that wastewater injection in the Fort Worth Basin of North Texas “significantly increases the likelihood for faults to slip” if not managed properly.

“The obvious next step is exactly what the University of Texas is doing—conducting these careful studies on the relationship between earthquakes and their human and natural causes to build an integrated understanding,” said Co-author Peter Hennings, who leads CISR and is a research scientist at the UT Bureau of Economic Geology.

Researchers from Portland State University, the University of Oklahoma, and French institute IFREMER also were part of the study.

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Seismic activity locations near Pecos in West Texas in 2009, 2011, 2015, and 2017. Source: University of Texas at Austin.