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WFAA Verify: Is West Texas sinking?

A new research report, from Southern Methodist University and funded by NASA, found a “…large swath of West Texas oil patch is heaving and sinking at alarming rates.”

WFAA-TV Channel 8’s Verify journalist David Schechter covered the phenomenon of the ground sinking at alarming rates in West Texas, according to the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences.

The Dedman College researchers are co-authors of a new analysis using satellite radar images that discovered decades of oil production activity in West Texas have destabilized localities in an area of about 4,000 square miles populated by small towns, roadways and a vast network of oil and gas pipelines and storage tanks.

Schechter’s WFAA ABC report, “Verify: Is West Texas sinking?” aired April 18, 2018.

Lu and Kim reported their findings in the Nature publication Scientific Reports, in the article “Association between localized geohazards in West Texas and human activities, recognized by Sentinel-1A/B satellite radar imagery.”

The researchers analyzed satellite radar images that were made public by the European Space Agency, and supplemented that with oil activity data from the Railroad Commission of Texas.

The study is among the first of its kind to identify small-scale deformation signals over a vast region by drawing from big data sets spanning a number of years and then adding supplementary information.

The research is supported by the NASA Earth Surface and Interior Program, and the Shuler-Foscue Endowment at SMU.

An earlier study by the researchers revealed significant ground movement of two giant sinkholes near Wink, Texas. The SMU geophysicists found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Watch the WFAA Verify news segment.

EXCERPT:

By David Schechter
WFAA-TV Verify

A new research report, from Southern Methodist University and funded by NASA, found a “…large swath of West Texas oil patch is heaving and sinking at alarming rates.”

To find out if West Texas is sinking, first I’m going to the guy who wrote the report, Dr. Zhong Lu. He’s a geophysicist who studies the earth using satellites.

By shooting a radar beam from space — like a measuring stick — a satellite can calculate elevation changes down to the centimeter. Lu did that over a 4000 square mile area.

“This area is sinking at half meter per year,” Dr. Lu says.

That’s more than a foot-and-a-half. Lu says, that’s alarming because that much change to the earth’s surface might normally take millions of years.

One of the images in his reports shows an area of sinking earth, near Wink, TX from 2011. Five years later, the satellite shows the sunken area had spread almost 240%.

“In this area that you are studying, is oil and gas the cause of the sinking?” I ask.

“Related to the oil and gas activities,” he says.

“Oil and gas activity is causing the sinking in West Texas?” I clarify.

“Yes,” he says.

Watch the WFAA Verify news segment.

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The Guardian: Texas sinkholes — oil and gas drilling increases threat, scientists warn

Ground rising and falling in region that has been ‘punctured like a pin cushion’ since the 1940s, new study finds.

The Guardian and other news outlets covered the West Texas sinkhole and ground movement research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU.

The Dedman College researchers are co-authors of a new analysis using satellite radar images that shows decades of oil production activity in West Texas have destabilized localities in an area of about 4,000 square miles populated by small towns, roadways and a vast network of oil and gas pipelines and storage tanks.

An earlier study by the researchers revealed significant ground movement of two giant sinkholes near Wink, Texas. The SMU geophysicists found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

The Guardian article by journalist Tom Dart was published March 27, 2018, “Texas sinkholes: oil and gas drilling increases threat, scientists warn.”

Other coverage includes articles by Forbes, Tech Times, Phys.org, Ecowatch, Fox San Antonio, The Dallas Morning News and the Texas Tribune.

Others include EarthSky.org, Live Science, KERA News, San Antonio Express, Houston Chronicle, Science Daily, The Energy Mix, Digital Journal, Homeland Security News Wire and the Science Bulletin.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported their latest findings in the Nature publication Scientific Reports, in the article “Association between localized geohazards in West Texas and human activities, recognized by Sentinel-1A/B satellite radar imagery.”

Lu and Kim reported the earlier findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research is supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Tom Dart
The Guardian

Oil and gas activity is contributing to alarming land movements and a rising threat of sinkholes across a huge swath of west Texas, a new study suggests.

According to geophysicists from Southern Methodist University, the ground is rising and falling in a region that has been “punctured like a pin cushion with oil wells and injection wells since the 1940s”.

There were nearly 297,000 oil wells in Texas as of last month, according to the state regulator. Many are in the Permian Basin, described in a Bloomberg article last September as the “world’s hottest oil patch”.

But the Southern Methodist report warns of unstable land and the threat of sinkholes.

“These hazards represent a danger to residents, roads, railroads, levees, dams, and oil and gas pipelines, as well as potential pollution of ground water,” Zhong Lu, a professor, said in a statement.

Wink – a tiny town 400 miles west of Dallas best known as the childhood home of the singer Roy Orbison – attracted national headlines in 2016 when the same scientists warned that the land between two expanding sinkholes a mile apart was deteriorating, risking the formation of more sinkholes or even the creation of a colossal single hole.

Injection of wastewater and carbon dioxide increases pore pressure in rocks, a likely cause of uplift. Lu told the Guardian that cracks and corrosion from ageing wells may help explain the sinking.

A “subsidence bowl” near one of the Wink sinkholes has sunk at a rate of more than 15.5in a year, probably as a result of water leaks through abandoned wells causing salt layers to dissolve, the report found. Elsewhere, a lake formed after 2003 as a result of sinking ground and rising water.

Read the full story.

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Radar images show large swath of West Texas oil patch is heaving and sinking at alarming rates

Analysis indicates decades of oil production activity have destabilized localities in an area of about 4,000 square miles populated by small towns, roadways and a vast network of oil and gas pipelines and storage tanks

Two giant sinkholes near Wink, Texas, may just be the tip of the iceberg, according to a new study that found alarming rates of new ground movement extending far beyond the infamous sinkholes.

That’s the finding of a geophysical team from Southern Methodist University, Dallas that previously reported the rapid rate at which the sinkholes are expanding and new ones forming.

Now the team has discovered that various locations in large portions of four Texas counties are also sinking and uplifting.

Radar satellite images show significant movement of the ground across localities in a 4000-square-mile area — in one place as much as 40 inches over the past two-and-a-half years, say the geophysicists.

“The ground movement we’re seeing is not normal. The ground doesn’t typically do this without some cause,” said geophysicist Zhong Lu, a professor in the Roy M. Huffington Department of Earth Sciences at SMU and a global expert in satellite radar imagery analysis.

“These hazards represent a danger to residents, roads, railroads, levees, dams, and oil and gas pipelines, as well as potential pollution of ground water,” Lu said. “Proactive, continuous detailed monitoring from space is critical to secure the safety of people and property.”

The scientists made the discovery with analysis of medium-resolution (15 feet to 65 feet) radar imagery taken between November 2014 and April 2017. The images cover portions of four oil-patch counties where there’s heavy production of hydrocarbons from the oil-rich West Texas Permian Basin.

The imagery, coupled with oil-well production data from the Railroad Commission of Texas, suggests the area’s unstable ground is associated with decades of oil activity and its effect on rocks below the surface of the earth.

The SMU researchers caution that ground movement may extend beyond what radar observed in the four-county area. The entire region is highly vulnerable to human activity due to its geology — water-soluble salt and limestone formations, and shale formations.

“Our analysis looked at just this 4000-square-mile area,” said study co-author and research scientist Jin-Woo Kim, a research scientist in the SMU Department of Earth Sciences.

“We’re fairly certain that when we look further, and we are, that we’ll find there’s ground movement even beyond that,” Kim said. “This region of Texas has been punctured like a pin cushion with oil wells and injection wells since the 1940s and our findings associate that activity with ground movement.”

Lu, Shuler-Foscue Chair at SMU, and Kim reported their findings in the Nature publication Scientific Reports, in the article “Association between localized geohazards in West Texas and human activities, recognized by Sentinel-1A/B satellite radar imagery.”

The researchers analyzed satellite radar images that were made public by the European Space Agency, and supplemented that with oil activity data from the Railroad Commission of Texas.

The study is among the first of its kind to identify small-scale deformation signals over a vast region by drawing from big data sets spanning a number of years and then adding supplementary information.

The research is supported by the NASA Earth Surface and Interior Program, and the Shuler-Foscue Endowment at SMU.

Imagery captures changes that might otherwise go undetected
The SMU geophysicists focused their analysis on small, localized, rapidly developing hazardous ground movements in portions of Winkler, Ward, Reeves and Pecos counties, an area nearly the size of Connecticut. The study area includes the towns of Pecos, Monahans, Fort Stockton, Imperial, Wink and Kermit.

The images from the European Space Agency are the result of satellite radar interferometry from recently launched open-source orbiting satellites that make radar images freely available to the public.

With interferometric synthetic aperture radar, or InSAR for short, the satellites allow scientists to detect changes that aren’t visible to the naked eye and that might otherwise go undetected.

The satellite technology can capture ground deformation with an accuracy of sub-inches or better, at a spatial resolution of a few yards or better over thousands of miles, say the researchers.

Ground movement associated with oil activity
The SMU researchers found a significant relationship between ground movement and oil activities that include pressurized fluid injection into the region’s geologically unstable rock formations.

Fluid injection includes waste saltwater injection into nearby wells, and carbon dioxide flooding of depleting reservoirs to stimulate oil recovery.

Injected fluids increase the pore pressure in the rocks, and the release of the stress is followed by ground uplift. The researchers found that ground movement coincided with nearby sequences of wastewater injection rates and volume and CO2 injection in nearby wells.

Also related to the ground’s sinking and upheaval are dissolving salt formations due to freshwater leaking into abandoned underground oil facilities, as well as the extraction of oil.

Sinking and uplift detected from Wink to Fort Stockton
As might be expected, the most significant subsidence is about a half-mile east of the huge Wink No. 2 sinkhole, where there are two subsidence bowls, one of which has sunk more than 15.5 inches a year. The rapid sinking is most likely caused by water leaking through abandoned wells into the Salado formation and dissolving salt layers, threatening possible ground collapse.

At two wastewater injection wells 9.3 miles west of Wink and Kermit, the radar detected upheaval of about 2.1 inches that coincided with increases in injection volume. The injection wells extend about 4,921 feet to 5,577 feet deep into a sandstone formation.

In the vicinity of 11 CO2 injection wells nearly seven miles southwest of Monahans, the radar analysis detected surface uplift of more than 1 inch. The wells are about 2,460 feet to 2,657 feet deep. As with wastewater injection, CO2 injection increased pore pressure in the rocks, so when stress was relieved it was followed by uplift of about 1 inch at the surface.

The researchers also looked at an area 4.3 miles southwest of Imperial, where significant subsidence from fresh water flowing through cracked well casings, corroded steel pipes and unplugged abandoned wells has been widely reported.

Water there has leaked into the easily dissolved Salado formation, created voids, and caused the ground to sink and water to rise from the subsurface, including creating Boehmer Lake, which didn’t exist before 2003.

Radar analysis by the SMU team detected rapid subsidence ranging from three-fourths of an inch to nearly 4 inches around active wells, abandoned wells and orphaned wells.

“Movements around the roads and oil facilities to the southwest of Imperial, Texas, should be thoroughly monitored to mitigate potential catastrophes,” the researchers write in the study.

About 5.5 miles south of Pecos, their radar analysis detected more than 1 inch of subsidence near new wells drilled via hydraulic fracturing and in production since early 2015. There have also been six small earthquakes recorded there in recent years, suggesting the deformation of the ground generated accumulated stress and caused existing faults to slip.

“We have seen a surge of seismic activity around Pecos in the last five to six years. Before 2012, earthquakes had not been recorded there. At the same time, our results clearly indicate that ground deformation near Pecos is occurring,” Kim said. “Although earthquakes and surface subsidence could be coincidence, we cannot exclude the possibility that these earthquakes were induced by hydrocarbon production activities.”

Scientists: Boost the network of seismic stations to better detect activity
Kim stated the need for improved earthquake location and detection threshold through an expanded network of seismic stations, along with continuous surface monitoring with the demonstrated radar remote sensing methods.

“This is necessary to learn the cause of recent increased seismic activity,” Kim said. “Our efforts to continuously monitor West Texas with this advanced satellite technique can help sustain safe, ongoing oil production.”

Near real-time monitoring of ground deformation possible in a few years
The satellite radar datasets allowed the SMU geophysicists to detect both two-dimension east-west deformation of the ground, as well as vertical deformation.

Lu, a leading scientist in InSAR applications, is a member of the Science Team for the dedicated U.S. and Indian NASA-ISRO (called NISAR) InSAR mission, set for launch in 2021 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A/B. The satellites orbit 435 miles above the Earth’s surface. Sentinel-1A was launched in 2014 and Sentinel-1B in 2016 as part of the European Union’s Copernicus program.

The Sentinel-1A/B constellation bounces a radar signal off the earth, then records the signal as it bounces back, delivering measurements. The measurements allow geophysicists to determine the distance from the satellite to the ground, revealing how features on the Earth’s surface change over time.

“Near real-time monitoring of ground deformation at high spatial and temporal resolutions is possible in a few years, using multiple satellites such as Sentinel-1A/B, NISAR and others,” said Lu. “This will revolutionize our capability to characterize human-induced and natural hazards, and reduce their damage to humanity, infrastructure and the energy industry.” — Margaret Allen, SMU

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The Texas Tribune: Sinkhole Warnings Don’t Faze West Texas

If the hole dramatically expands, “Wink will have some beachfront property,” Keely jokes. “Somebody’s going to make a marina out of it.” — Winkler County Sheriff George Keely to The Texas Tribune.

Wink sinkholes

The Texas Tribune journalist Jim Malewitz covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Malewitz’s article, “Sinkhole Warnings Don’t Faze West Texas,” published July 12, 2016.

The Dedman College geophysicists are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Jim Malewitz
The Texas Tribune

WINK — Sheriff George Keely’s truck bobbed as he cruised down a particularly warped and cracked stretch of county road.

“This is the road I don’t like to drive on if I don’t have to,” he said as brown-green West Texas scrubland reflected in the rearview mirror. The trip is riskier than he’d like.

But here was Keely — a few months away from retirement after more than 20 years as a Winkler County lawman, five of them as sheriff — again escorting a reporter and photographer across the unstable terrain toward the Wink Sinks, the community’s chasms of fascination and fear.

The two gaping sinkholes, which sit between the small towns of Wink and Kermit atop the largely tapped out Hendrick oilfield, aren’t new. Wink Sink No. 1 — more than a football field across and 100 feet deep when it collapsed — turned 36 years old last month. Its more massive cousin to the south, Wink Sink No.2, swallowed a water well, pipelines and surrounding desert back in 2002.

A recent study by two Southern Methodist University geophysicists has thrust the sinkholes back into conversations here and across the wider realm of social media.

The research, published last month in the peer-reviewed journal Remote Sensing, used satellite imagery to chart what other researchers and folks like Keely have noticed: the sinkholes keep growing, and land surrounding them is sinking — likely due to a mix of geology and human intervention.

The instability raises the possibility that more abysses could open without further notice, the SMU researchers suggested.

“A collapse could be catastrophic,” research scientist Jin-Woo Kim said in a statement upon the study’s release.

“I would be very concerned,” his partner Zhong Lu, a professor, said in an interview.

Those findings quickly garnered attention from news media across Texas and the U.S. and other websites. The headlines grew more alarming and less accurate as blogs and other websites aggregated and re-aggregated the news. (“Giant Sinkholes Threaten to Swallow Two Tiny West Texas Towns,” “Sinkholes May Take Texas Down”).

In Winkler County, the prognostications were greeted largely with a yawn.

Read the full story.

Follow SMU Research on Twitter, @smuresearch.

For more SMU research see www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information, www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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KERA News: Near Wink, Texas, The Sink Holes Are Getting Bigger And Bigger

“’We could have another sink hole or two or 10 someday show up,’” (Winkler County Sheriff George) Keely says. In fact, the SMU researchers used satellite imaging to show the problem is getting worse.”

KERA public radio news covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU.

KERA’s article, “Near Wink, Texas, The Sink Holes Are Getting Bigger And Bigger,” aired June 28, 2016.

The Dedman College faculty are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye.

Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

KERA Public Radio News
The earth is crumbling in West Texas. Scientists from Southern Methodist University have new research that shows two massive sinkholes between the towns of Wink and Kermit are expanding.

Years of drilling for oil and gas have helped wash away salt beds underneath the ground. A shifting water table has made the problem worse and in some places the ground is sinking five inches a year, according to the satellite readings.

Now there’s concern the pits could converge into one giant hole. “A collapse could be catastrophic,” SMU research scientist Jin-Woo Kim said.

These wounds in the West Texas desert have been around for years. The first hole opened up near an abandoned oil well on June 3, 1980. Twenty-two years later, about a mile away, the second one appeared. From the sky, they look like high-caliber bullet holes

“It’s pretty scary. It’s just a big huge pit,” said Winkler County Sheriff George Keely, who has peered over the edge many times in his career. “It’s like standing on the moon looking into a crater. And you can see where it’s just caved off. It’s broken off over the years more and more. When you look down there, you’re looking at water.”

Water is the problem. West Texas, not far from Odessa, is oil country. Drillers started working near

Wink in the mid-1920s. For decades, they injected water into the ground and destabilized the earth, according to the researchers. Meanwhile, as the water table shrinks, thick layers of salt are dissolved far below the surface.

It’s like kicking the legs out from underneath a chair.

Read the full story.

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Seeker.com: Giant Sinkholes Near Texas Oil Fields Are Growing

New holes are also developing to join them, a satellite study shows.

Wink sinkholes

Online news site Seeker.com covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Seeker.com’s article, “Giant Sinkholes Near Texas Oil Fields Are Growing,” published June 16, 2016.

The Dedman College geophysicists are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

Seeker.com
In west Texas, they call them the “Wink Sinks.” They’re two giant sinkholes between the towns of Wink and Kermit, the after-affect of a lot of oil being pumped out of the ground in the area more than 60 years ago. And now researchers have discovered that the oddball landmarks — already the size of multiple football fields — are unstable and likely to grow even bigger.

Southern Methodist University geophysicists utilized a time series of radar images captured by an orbiting satellite 435 miles overhead to study the sinkholes. They used a technique called interferometric synthetic aperture radar, or InSAR, to detect changes that aren’t visible to a person at ground level.

Their study, published in the journal Remote Sensing, found that the extent of subsidence in the area has increased significantly over the past seven years, and that the instability originally caused by oil drilling now is being driven by changing groundwater levels.

As the groundwater increases, it dissolves a massive underground salt formation in the area, which then causes the ground to sink.

That’s a problem, because the Wink Sinks already are pretty big. Wink Sink No. 1, which is closer to the town of Kermit, has grown since 1980 to 361 feet across. Wink Sink No. 2, which is nine-tenths of a mile to the south, is about 900 feet across at its widest point.

But to make matters worse, other parts of the area around the sinkholes is sinking as well. The highest rate of ground subsidence is in an area about seven-tenths of a mile northeast of No. 2, which is collapsing at a rate of more than 5 inches per year.

“This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities,” research scientist Jin-Woo Kim, who co-authored the study with SMU professor Zhong Lu, explained in a press release. He explained that a more massive collapse “could be catastrophic.”

Read the full story.

Follow SMU Research on Twitter, @smuresearch.

For more SMU research see www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information, www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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Star-Telegram: Two giant sinkholes in West Texas expanding, researchers say

“They’re a ways off from the highway; if nobody mentions it, then nobody is interested in it,” Kermit City Manager Gloria Saenz told the New York Daily News.

Wink sinkholes

Fort Worth Star-Telegram journalist Tom Uhler covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Uhler’s article, “Two giant sinkholes in West Texas expanding, researchers say,” published June 16, 2016.

The Dedman College geophysicists are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Tom Uhler
Star-Telegram

A couple of giant sinkholes in the West Texas oil patch are apparently expanding, and might eventually converge into one gigantic hole.

The sinkholes are about a mile apart and sit between Wink and Kermit off I-20 west of Midland-Odessa. They were caused by lots of oil and gas extraction, which peaked from the mid-1920s to the mid-1960s, according to researchers at Southern Methodist University.

Satellite radar images indicate that the giant sinkholes are expanding and that new ones are forming “at an alarming rate” as nearby subsidence occurs, they report in the scientific journal Remote Sensing. One is 361 feet across, about the size of a football field; the other is larger, 670 to 900 feet across.

“A collapse could be catastrophic,” said geophysicist Jin-Woo Kim, who leads the SMU geophysical team reporting the findings.

In addition to Wink and Kermit (combined pop. about 7,000), there’s lots of oil and gas production equipment and installations and hazardous liquid pipelines in the area, Kim said in the report. The fresh water injected underground in the extraction process “can dissolve the interbedded salt layers and accelerate the sinkhole collapse.”

There’s something not too dissimilar happening in Daisetta, east of Houston.

Officials have fenced off the area around the sinkholes between Wink and Kermit and they’ll be monitored, but residents don’t appear to be worried about them.

“They’re a ways off from the highway; if nobody mentions it, then nobody is interested in it,” Kermit City Manager Gloria Saenz told the New York Daily News.

A preacher of the Apocalypse from Indiana had a decidedly different take, exclaiming on YouTube: “Here’s my concern. It’s like hell is being enlarged, and that without measure.”

Well, maybe not quite.

Read the full story.

Follow SMU Research on Twitter, @smuresearch.

For more SMU research see www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information, www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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New York Daily News: Giant sinkholes in Texas are growing, may collide: study

The sinkholes are a little less than a mile apart, but that distance is closing as the land directly around both holes subsides about 2 inches each year.

Wink sinkholes

New York Daily News journalist Anthony Izaguirre covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Izaguirre’s article, “Giant sinkholes in Texas are growing, may collide: study,” published June 16, 2016.

The Dedman College geophysicists are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Anthony Izaguirre
New York Daily News

Two massive, rapidly expanding sinkholes in Texas are at risk of collapsing into each other and causing a “catastrophic” natural disaster, scientists warned.

Geophysicists at Southern Methodist University found that the land around the gaping sinkholes between the west Texas towns of Wink and Kermit is deteriorating — which could end up either forming more holes or creating one giant sinkhole.

These sinkholes, which were caused by the area’s oil and gas extraction industries, are nothing new to Texas residents.

The first hole, Wink Sink #1, opened up in 1980 and is currently about as wide as a football field.

Wink Sink #2, the larger of the two holes, opened in 2002 and stretches for 900 feet at its widest point.

The sinkholes are a little less than a mile apart, but that distance is closing as the land directly around both holes subsides about 2 inches each year.

“This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities,” Jin-Woo Kim, a coauthor of the report, said in a statement. “A collapse could be catastrophic.”

Read the full story.

Follow SMU Research on Twitter, @smuresearch.

For more SMU research see www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information, www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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Daily Mail: The two massive and mysterious Texas sinkholes on the verge of creating one colossal lake

‘A collapse could be catastrophic. Following our study, we are collecting more high-resolution satellite data over the sinkholes and neighboring regions to monitor further development and collapse.’

Wink sinkholes

London Daily Mail online journalist Ashley Collman covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Collman’s article, “The two massive and mysterious Texas sinkholes on the verge of creating one colossal lake,” published June 16, 2016.

The Dedman College researchers are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Ashley Collman
London Daily Mail

Scientists have issued a grave warning to a small Texas community home to two growing sinkholes.

Geologists at Southern Methodist University say the two sinkholes in Wink and neighboring Kermit, Texas are growing more unstable, and could spark more sinkholes or join to create one massive hole.

This will prove devastating to the local community, which has a combined population of almost 7,000.

SMU researchers Zhong Lu and Jin-Woo Kim recently published their sober warning in a recent article in the journal Remote Sensing.

‘This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities. The intrusion of freshwater to underground can dissolve the interbedded salt layers and accelerate the sinkhole collapse,’ co-author Kim said in a press release.

‘A collapse could be catastrophic. Following our study, we are collecting more high-resolution satellite data over the sinkholes and neighboring regions to monitor further development and collapse.’

Lu and Kim discovered that the two holes were growing more unstable by using satellite images that measures depressions in the earth’s crust.

The satellite data found that the two holes – which are located about a mile apart – are rapidly growing and causing the ground around them to become more and more unstable – opening up the possibility of more sinkholes or the creation of one giant sinkhole.

The sinkhole in Wink is the oldest and smallest of the two sinkholes, but it is growing the fastest.

Right now it is about 361 feet across – or the length of a football field.

‘Even though Wink No. 1 collapsed in 1980, its neighboring areas are still subsiding,’ say the authors, ‘and the sinkhole continues to expand.’

Read the full story.

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Grist: Massive sinkholes in Texas could combine to form even massiver sinkhole

“This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities,” said study author Jin-Woo Kim in a press release. “A collapse could be catastrophic.”

Wink sinkholes

Grist.org journalist Katie Herzog covered the research of SMU geophysicists Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, both in the Roy M. Huffington Department of Earth Sciences at SMU. Herzog’s article, “Massive sinkholes in Texas could combine to form even massiver sinkhole,” published June 15, 2016.

The Dedman College faculty are co-authors of a new analysis using satellite radar images to reveal ground movement of two giant sinkholes near Wink, Texas. They found that the movement suggests the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Lu is world-renowned for leading scientists in InSAR applications, short for a technique called interferometric synthetic aperture radar, to detect surface changes that aren’t visible to the naked eye. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Read the full story.

EXCERPT:

By Katie Herzog
Grist.org

Welcome to West Texas, where sometimes the ground just opens up under your feet.

Two existing sinkholes — one in the adorably named town of Wink, the other in the absurdly named town of Kermit — are about a mile away from each other, but data suggests they might be expanding. Researchers from Southern Methodist University analyzed radar images of the area and found some hints of movement in the surrounding ground. If the sinkholes keep growing, it’s possible they will merge into one supermassive sinkhole.

And that would be a big problem indeed.

“This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities,” said study author Jin-Woo Kim in a press release. “A collapse could be catastrophic.”

Sinkholes are not uncommon in this part of West Texas, thanks to the area’s prolific oil and gas industries. These particular sinkholes, however, are large even by Texas standards: The hole in Wink, which formed in 1980, is 361 feet across — or the length of a football field — and its neighbor in Kermit varies between 600 and 900 feet across. Both are over 100 feet deep.

Sinkholes occur when water dissolves bedrock over time, and then — sometimes suddenly — the ground collapses. They can be just a few feet across, or, like these ones, big enough to hold buildings. (A 2013 sinkhole opened up under the National Corvette Museum in Bowling Green, Ky., and swallowed eight classic cars.) And while sinkholes can form naturally, they are also created by human activity like oil and gas extraction.

Read the full story.

Follow SMU Research on Twitter, @smuresearch.

For more SMU research see www.smuresearch.com.

SMU is a nationally ranked private university in Dallas founded 100 years ago. Today, SMU enrolls nearly 11,000 students who benefit from the academic opportunities and international reach of seven degree-granting schools. For more information, www.smu.edu.

SMU has an uplink facility located on campus for live TV, radio, or online interviews. To speak with an SMU expert or book an SMU guest in the studio, call SMU News & Communications at 214-768-7650.

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Geohazard: Giant sinkholes near West Texas oil patch towns are growing — as new ones lurk

Satellite radar images reveal ground movement of infamous sinkholes near Wink, Texas; suggest the two existing holes are expanding, and new ones are forming as nearby subsidence occurs at an alarming rate.

Residents of Wink and neighboring Kermit have grown accustomed to the two giant sinkholes that sit between their small West Texas towns.

But now radar images taken of the sinkholes by an orbiting space satellite reveal big changes may be on the horizon.

A new study by geophysicists at Southern Methodist University, Dallas, finds the massive sinkholes are unstable, with the ground around them subsiding, suggesting the holes could pose a bigger hazard sometime in the future.

The two sinkholes — about a mile apart — appear to be expanding. Additionally, areas around the existing sinkholes are unstable, with large areas of subsidence detected via satellite radar remote sensing.

That leaves the possibility that new sinkholes, or one giant sinkhole, may form, said geophysicists and study co-authors Zhong Lu, professor, Shuler-Foscue Chair, and Jin-Woo Kim research scientist, in the Roy M. Huffington Department of Earth Sciences at SMU.

“This area is heavily populated with oil and gas production equipment and installations, hazardous liquid pipelines, as well as two communities. The intrusion of freshwater to underground can dissolve the interbedded salt layers and accelerate the sinkhole collapse,” said Kim, who leads the SMU geophysical team reporting the findings. “A collapse could be catastrophic. Following our study, we are collecting more high-resolution satellite data over the sinkholes and neighboring regions to monitor further development and collapse.”

Lu and Kim reported the findings in the scientific journal Remote Sensing, in the article “Ongoing deformation of sinkholes in Wink, Texas, observed by time-series Sentinel-1A SAR Interferometry.”

The research was supported by the U.S. Geological Survey Land Remote Sensing Program, the NASA Earth Surface & Interior Program, and the Shuler-Foscue Endowment at Southern Methodist University.

Unstable ground linked to rising, falling groundwater
The sinkholes were originally caused by the area’s prolific oil and gas extraction, which peaked from 1926 to 1964. Wink Sink No. 1, near the Hendricks oil well 10-A, opened in 1980. Wink Sink No. 2, near Gulf WS-8 supply well, opened 22 years later in 2002.

It appears the area’s unstable ground now is linked to changing groundwater levels and dissolving minerals, say the scientists. A deep-seated salt bed underlies the area, part of the massive oil-rich Permian Basin of West Texas and southeastern New Mexico.

With the new data, the SMU geophysicists found a high correlation between groundwater level in the underlying aquifer and further sinking of the surface area during the summer months, influenced by successive roof failures in underlying cavities.

Satellite images and groundwater records indicate that when groundwater levels rise, the ground lifts. But the presence of that same groundwater then speeds the dissolving of the underground salt, which then causes the ground surface to subside.

Everything’s bigger in Texas, and the Wink sinkholes are no exception
Officials have fenced off the two sinkholes near Wink, a town of about 940 people, and Kermit, a town of about 6,000 people. The giant holes are notable features on the area’s vast plains, which are dotted mostly with oil pump jacks, storage facilities, occasional brush and mesquite trees.

Based on modeling of satellite image datasets, SMU’s researchers report that Wink Sink No. 1, which is closer to the town of Kermit, appears to be the most unstable. The smaller hole of the two, it has grown to 361 feet (110 meters) across — the length of a football field.

“Even though Wink No. 1 collapsed in 1980, its neighboring areas are still subsiding,” say the authors, “and the sinkhole continues to expand.” An oval-shaped deformation circling the sinkhole measures three-tenths of a mile (500 meters) wide and is subsiding up to 1.6 inches (4 centimeters) a year.

Wink Sink No. 2, which is nine-tenths of a mile south of No. 1 and which sits closer to the town of Wink, is the larger of the sinkholes. It varies from 670 feet to 900 feet across.

Wink No. 2 is not experiencing as much subsidence as Wink No. 1. However, its eastern side is collapsing and eroding westward at a rate of up to 1.2 inches (3 centimeters) a year.

“Wink No. 2 exhibits depression associated with the ongoing expansion of the underground cavity,” the authors report.

Some ground that doesn’t even border the edges of the two sinkholes is also subsiding, the scientists observed. An area more than half a mile (1 kilometer) northeast of No. 2 sank at a rate of 1.6 inches (4 centimeters) in just four months.

Ground northeast of sinkholes is subsiding, suggesting new ones forming
The largest rate of ground subsidence is not at either sinkhole, but at an area about seven-tenths of a mile (1.2 kilometers) northeast of No. 2. Ground there is subsiding at a rate of more than 5 inches (13 centimeters) a year.

It’s aerial extent, the researchers report, has also enlarged over the past eight years when a previous survey was done.

“The enlarged deformation could be an alarming precursor to the potential future development of hazards in the vicinity,” said the authors.

Additionally, ground along a road traveled by oil field vehicles, about a quarter mile (400 meters) directly north of No. 2, is subsiding about 1.2 inches (3 centimeters) a year.

Ground’s movement detected with radar technique
The satellite radar datasets were collected over five months between April 2015 and August 2015. With them, the geophysicists observed both two-dimension east-west deformation of the sinkholes, as well as vertical deformation.

The SMU scientists used a technique called interferometric synthetic aperture radar, or InSAR for short, to detect changes that aren’t visible to the naked eye.

“From 435 miles above the Earth’s surface, this InSAR technique allows us to measure inch-level subsidence on the ground. This is a monumental human achievement, and scientists will not stop endeavoring to improve this technique for more precise measurements,” said Lu, who is world-renowned for leading scientists in InSAR applications. Lu is a member of the Science Definition Team for the dedicated U.S. and Indian NASA-ISRO InSAR mission, set for launch in 2020 to study hazards and global environmental change.

InSAR accesses a series of images captured by a read-out radar instrument mounted on the orbiting satellite Sentinel-1A. Sentinel-1A was launched in April 2014 as part of the European Union’s Copernicus program.

Simply put, Sentinel-1A bounces a radar signal off the earth, then records the signal as it bounces back, delivering measurements. The measurements allow geophysicists to determine the distance from the satellite to the ground, revealing how features on the Earth’s surface change over time.

“Sinkhole formation has previously been unpredictable, but satellite remote sensing provides a great means to detect the expansion of the current sinkholes and possible development of new sinkholes,” said Kim. “Monitoring the sinkholes and modeling the rate of change can help predict potential sinkhole development.”

Sentinel-1A data were obtained from Sentinels Scientific Data Hub – Copernicus. Groundwater well data came from the Texas Water Development Board. — Margaret Allen, SMU