‘No Evidence’ that Fracking Can Operate without Threatening Public Health and Climate Stability

New report summarizing 1,500-plus scientific studies on fracking impacts proves risk to people, wildlife, and nature.

In 2010 when I first started writing about hydraulic fracturing — the process of blasting a cocktail of water and chemicals into shale to release trapped hydrocarbons — there were more questions than answers about environmental and public-health threats. That same year Josh Fox’s documentary Gasland, which featured tap water bursting into flames, grabbed the public’s attention. Suddenly the term fracking — little known outside the oil and gas industry — became common parlance.

photo of fracking
The research is now clear: Fracking isn't safe, and regulations won't help. Photo by Daniel Foster.

In the following years I visited with people in frontline communities — those living in the gas patches and oilfields, along pipeline paths and beside compressor stations. Many were already woozy from the fumes or worried their drinking water was making them sick. When people asked me if they should leave their homes, it was hard to know what to say; there weren’t many peer-reviewed studies to understand how fracking was affecting public health.

Those days are over.

In June the nonprofits Physicians for Social Responsibility and Concerned Health Professionals of New York released the sixth edition of a compendiumthat summarizes more than 1,700 scientific reports, peer-reviewed studies, and investigative journalism reports about the threats to the climate and public health from fracking.

The research has been piling up for years, and the verdict is clear, the authors conclude: Fracking isn’t safe, and heaps of regulations won’t help (not that they’re coming, anyway).

“Across a wide range of parameters, from air and water pollution to radioactivity to social disruption to greenhouse gas emissions, the data continue to reveal a plethora of recurring problems and harms that cannot be sufficiently averted through regulatory frameworks,” write the eight public health professionals, mostly doctors and scientists, who compiled the compendium. “There is no evidence that fracking can operate without threatening public health directly and without imperiling climate stability upon which public health depends.”

The research collected and summarized is wide-ranging and includes the harms not just from drilling and fracking, but the long tail of the process, including compressor stations and pipelines, silica sand mining, natural-gas storage, natural-gas power plants, and the manufacturing and transport of liquefied natural gas.

Dr. Sandra Steingraber, a biologist, author and distinguished scholar in residence at Ithaca College, is one of the compendium’s co-authors. She helped lead an independent investigation into the scientific research on the health risks from fracking that was a precursor to the current compendium. Those efforts drove public engagement on the issue and eventually led to a ban on fracking in her home state of New York in 2014.

She says this latest collection of research reveals some significant and noteworthy trends.

“There’s really definitive evidence now that methane leaks at every stage of the fracking process” from drilling to storage, she says. And that’s contributing to a surge in methane, a potent greenhouse gas, in the atmosphere.

But methane isn’t just a climate danger. It’s also a contributor to smog, otherwise known as ground-level ozone, which is linked to strokes, heart attacks, asthma and preterm births.

“Methane is a source of air pollution that’s deadly — and that’s become clearer and clearer,” says Steingraber.

Another area where the science is settled is the earthquakes caused by the injection of fracking wastewater underground, she says.

“We know without a doubt that fracking is linked to earthquakes that occur over longer periods of time and wider geographic area than previously thought,” she says. “That’s because these slippery chemicals that they’ve added to fracking fluid decrease friction while fracking, and they don’t lose that property when re-injected down into the earth with wastewater.”

The compendium also includes a section on two new topics not covered in previous editions — environmental justice and wildlife.

First, studies have shown that fracking infrastructure is disproportionately sited in nonwhite, Indigenous, or low-income communities. “Whether it’s practiced in urban areas like Los Angeles where fracking infrastructure clearly targets poor nonwhite communities or in rural areas of Ohio and Pennsylvania where it’s targeted at poor whites — those patterns hold up over and over again,” she says.

There’s also mounting evidence about harms to wildlife from various elements of the process, including toxic water, habitat destruction, light and noise pollution. For example, infrastructure like compressor stations caused populations of grassland songbirds in Canada to decline. Water fleas, a key part of the aquatic food web, are imperiled by small amounts of fracking fluid in waterways.

And that’s just the tip of the iceberg: At more than 350 pages with 1,400 footnotes linking to pertinent research, there’s a lot to uncover in the compendium. Here are a few of the findings:

  • Oil and gas operations in the arid Permian Basin used eight times more water for fracking in 2018 as they did in 2011, threatening groundwater supplies;
  • A 2018 analysis of methane leaks from the US oil and gas supply chain as a whole found leakage rates were 60 percent higher than reported by the EPA, and a 2019 study in southwestern Pennsylvania found shale gas emissions that were underreported by a factor of five when compared to EPA estimates;
  • Researchers working in Texas found 19 different fracking-related contaminants — including cancer-causing benzene — in hundreds of drinking water samples collected from the aquifer overlying the heavily drilled Barnett Shale, thereby documenting widespread water contamination;
  • More than 200 airborne chemical contaminants have been detected near drilling and fracking sites. Of these 61 are classified as hazardous air pollutants, including carcinogens, and 26 are endocrine-disrupting compounds that have been linked to reproductive, developmental, and neurological damage;
  • Studies of mothers living near oil and gas extraction operations consistently find impairments to infant health, including elevated risks for low birth weight and preterm birth;
  • In 2017, the most recent year for which data are available, 81 oil and gas extraction workers died on the job, accounting for 72 percent of the fatal work injuries in the mining sector, which overall has a fatality rate nearly four times the national average;
  • Significant pipeline accidents happen roughly 300 times each year in the United States and, between 1998 and 2017, killed 299 people and injured 1,190 others, according to the Pipeline and Hazardous Materials Safety Administration (PHMSA).

Over the years the compendium has become a critical resource in the fight against fracking and helped to shed some light on an industry that, thanks to regulatory loopholes, has been allowed to operate in secrecy.

Steingraber says there are more than enough scientific findings to conclude that fracking isn’t safe — indeed, that’s what officials in New York determined five years ago. But the industry has significant political clout that science alone can’t counter.

“It seems to be required now that science be carried by a powerful social movement,” she says. But she’s seen firsthand how strong those movements can be. When fracking came to her doorstep in New York, she and other health professionals translated the science into plain English and brought it to frontline communities so people would know what they were facing.

“When people are informed by science, and then empowered to have an opinion, they’re moved to take part in the public process,” she says. A surge of tens of thousands of public comments helped move New York to ban fracking, and requests for information about health impacts from fracking from all over the world has led Steingraber and her colleagues to keep updating the compendium year after year.

“This is a completely unfunded project — we’re just doing this in the middle of the night and on weekends,” she says. “But I believe there is value in having a group of independent scientists doing this work.”

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