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A fracking wastewater well in high water caused from flooding in East Boulder, Colorado.  (Photo/East Boulder County United via Facebook)

A fracking wastewater well in high water caused from flooding in East Boulder, Colorado. (Photo/East Boulder County United via Facebook)

In a Brooklyn winery on a sultry July evening, an elegant crowd sips rosé and nibbles trout plucked from the gin-clear streams of upstate New York. The diners are here, with their checkbooks, to support a group called Chefs for the Marcellus, which works to protect the foodshed upon which hundreds of regional farm-to-fork restaurants depend. The foodshed is coincident with the Marcellus Shale, a geologic formation that arcs northeast from West Virginia through Pennsylvania and into New York State. As everyone invited here knows, the region is both agriculturally and energy rich, with vast quantities of natural gas sequestered deep below its fertile fields and forests.

In Pennsylvania, the oil and gas industry is already on a tear—drilling thousands of feet into ancient seabeds, then repeatedly fracturing (or “fracking”) these wells with millions of gallons of highly pressurized, chemically laced water, which shatters the surrounding shale and releases fossil fuels. New York, meanwhile, is on its own natural-resource tear, with hundreds of newly opened breweries, wineries, organic dairies and pastured livestock operations—all of them capitalizing on the metropolitan area’s hunger to localize its diet.

But there’s growing evidence that these two impulses, toward energy and food independence, may be at odds with each other.

Tonight’s guests have heard about residential drinking wells tainted by fracking fluids in Pennsylvania, Wyoming and Colorado. They’ve read about lingering rashes, nosebleeds and respiratory trauma in oil-patch communities, which are mostly rural, undeveloped, and lacking in political influence and economic prospects. The trout nibblers in the winery sympathize with the suffering of those communities. But their main concern tonight is a more insidious matter: the potential for drilling and fracking operations to contaminate our food. The early evidence from heavily fracked regions, especially from ranchers, is not reassuring.

Jacki Schilke and her sixty cattle live in the top left corner of North Dakota, a windswept, golden-hued landscape in the heart of the Bakken Shale. Schilke’s neighbors love her black Angus beef, but she’s no longer sharing or eating it—not since fracking began on thirty-two oil and gas wells within three miles of her 160-acre ranch and five of her cows dropped dead. Schilke herself is in poor health. A handsome 53-year-old with a faded blond ponytail and direct blue eyes, she often feels lightheaded when she ventures outside. She limps and has chronic pain in her lungs, as well as rashes that have lingered for a year. Once, a visit to the barn ended with respiratory distress and a trip to the emergency room. Schilke also has back pain linked with overworked kidneys, and on some mornings she urinates a stream of blood.

Ambient air testing by a certified environmental consultant detected elevated levels of benzene, methane, chloroform, butane, propane, toluene and xylene—compounds associated with drilling and fracking, and also with cancers, birth defects and organ damage. Her well tested high for sulfates, chromium, chloride and strontium; her blood tested positive for acetone, plus the heavy metals arsenic (linked with skin lesions, cancers and cardiovascular disease) and germanium (linked with muscle weakness and skin rashes). Both she and her husband, who works in oilfield services, have recently lost crowns and fillings from their teeth; tooth loss is associated with radiation poisoning and high selenium levels, also found in the Schilkes’ water.

State health and agriculture officials acknowledged Schilke’s air and water tests but told her she had nothing to worry about. Her doctors, however, diagnosed her with neurotoxic damage and constricted airways. “I realized that this place is killing me and my cattle,” Schilke says. She began using inhalers and a nebulizer, switched to bottled water, and quit eating her own beef and the vegetables from her garden. (Schilke sells her cattle only to buyers who will finish raising them outside the shale area, where she presumes that any chemical contamination will clear after a few months.) “My health improved,” Schilke says, “but I thought, ‘Oh my God, what are we doing to this land?’”

Schilke’s story reminds us that farmers need clean water, clean air and clean soil to produce healthful food. But as the largest private landholders in shale areas across the nation, farmers are disproportionately being approached by energy companies eager to extract oil and gas from beneath their properties. Already, some are regretting it.

Earlier this year, Michelle Bamberger, an Ithaca veterinarian, and Robert Oswald, a professor of molecular medicine at Cornell’s College of Veterinary Medicine, published the first (and, so far, only) peer-reviewed report to suggest a link between fracking and illness in food animals. The authors compiled case studies of twenty-four farmers in six shale-gas states whose livestock experienced neurological, reproductive and acute gastrointestinal problems. Exposed either accidentally or incidentally to fracking chemicals in the water or air, scores of animals have died. The death toll is insignificant when measured against the nation’s livestock population (some 97 million beef cattle go to market each year), but environmental advocates believe these animals constitute an early warning.

Exposed animals “are making their way into the food system, and it’s very worrisome to us,” Bamberger says. “They live in areas that have tested positive for air, water and soil contamination. Some of these chemicals could appear in milk and meat products made from these animals.”

In Louisiana, seventeen cows died after an hour’s exposure to spilled fracking fluid. (Most likely cause of death: respiratory failure.) In north central Pennsylvania, 140 cattle were exposed to fracking wastewater when an impoundment was breached. Approximately seventy cows died; the remainder produced eleven calves, of which only three survived. In western Pennsylvania, an overflowing waste pit sent fracking chemicals into a pond and a pasture where pregnant cows grazed: half their calves were born dead. The following year’s animal births were sexually skewed, with ten females and two males, instead of the usual 50-50 or 60-40 split.

In addition to the cases documented by Bamberger, hair testing of sick cattle that grazed around well pads in New Mexico found petroleum residues in fifty-four of fifty-six animals. In North Dakota, wind-borne fly ash, which is used to solidify the waste from drilling holes and contains heavy metals, settled over a farm: one cow, which either inhaled or ingested the caustic dust, died, and a stock pond was contaminated with arsenic at double the accepted level for drinking water.

Cattle that die on the farm don’t make it into the nation’s food system. (Though they’re often rendered to make animal feed for chickens and pigs—yet another cause for concern.) But herd mates that appear healthy, despite being exposed to the same compounds, do: farmers aren’t required to prove their livestock are free of fracking contaminants before middlemen purchase them. Bamberger and Oswald consider these animals sentinels for human health. “They’re outdoors all day long, so they’re constantly exposed to air, soil and groundwater, with no break to go to work or the supermarket,” Bamberger says. “And they have more frequent reproductive cycles, so we can see toxic effects much sooner than with humans.”

Fracking a single well requires up to 7 million gallons of water, plus an additional 400,000 gallons of additives, including lubricants, biocides, scale and rust inhibitors, solvents, foaming and defoaming agents, emulsifiers and de-emulsifiers, stabilizers and breakers. About 70 percent of the liquid that goes down a borehole eventually comes up—now further tainted with such deep-earth compounds as sodium, chloride, bromide, arsenic, barium, uranium, radium and radon. (These substances occur naturally, but many of them can cause illness if ingested or inhaled over time.) This super-salty “produced” water, or brine, can be stored on-site for reuse. Depending on state regulations, it can also be held in plastic-lined pits until it evaporates, is injected back into the earth, or gets hauled to municipal wastewater treatment plants, which aren’t designed to neutralize or sequester fracking chemicals (in other words, they’re discharged with effluent into nearby streams).

At almost every stage of developing and operating an oil or gas well, chemicals and compounds can be introduced into the environment. Radioactive material above background levels has been detected in air, soil and water at or near gas-drilling sites. Volatile organic compounds—including benzene, toluene, ethylene and xylene—waft from flares, engines, compressors, pipelines, flanges, open tanks, spills and ponds. (The good news: VOCs don’t accumulate in animals or plants. The bad news: inhalation exposure is linked to cancer and organ damage.)

Underground, petrochemicals can migrate along fissures through abandoned or orphaned wells or leaky well casings (the oil and gas industry estimates that 60 percent of wells will leak over a thirty-year period). Brine can spill from holding ponds or pipelines. It can be spread, legally in some places, on roadways to control dust and melt ice. Truck drivers have also been known to illegally dump this liquid in creeks or fields, where animals can drink it or lick it from their fur.

Although energy companies don’t make a habit of telling potential lease signers about the environmental risks they might face, the Securities and Exchange Commission requires them to inform potential investors. In a 2008 filing, Cabot Industries cited “well site blowouts, cratering and explosions; equipment failures; uncontrolled flows of natural gas, oil or well fluids; fires; formations with abnormal pressures; pollution and other environmental risks.” In 2011, oil companies in North Dakota reported more than 1,000 accidental releases of oil, drilling wastewater or other fluids, with many more releases likely unreported. Between 2008 and 2011, drilling companies in Pennsylvania reported 2,392 violations of law that posed a direct threat to the environment and safety of communities.

Schilke looks left and right, twice, for oncoming tanker trucks, then scoots down a gravel road in her camo-patterned four-wheeler. She parks alongside a leased pasture about a mile from her house and folds her body through a barbed-wire fence. “These guys are much healthier than those I’ve got at home,” she says, puffing as she hikes up a straw-colored hill. “There’s Judy…that’s Buttercup…those are my little bulls.” The black-faced animals turn to face her; some amble through the tall grass and present their foreheads for rubbing. “We’re upwind of the drill rigs here,” Schilke says. “They’re high enough to miss some of the road dust, and they’ve got good water.” Ever since a heater-treater unit, which separates oil, gas and brine, blew out on a drill pad a half-mile upwind of Schilke’s ranch, her own creek has been clogged with scummy growth, and it regularly burps up methane. “No one can tell me what’s going on,” she says. But since the blowout, her creek has failed to freeze, despite temperatures of forty below. (Testing found sulfate levels of 4,000 parts per million: the EPA’s health goal for sulfate is 250 parts per million.)

Schilke’s troubles began in the summer of 2010, when a crew working at this site continued to force drilling fluid down a well that had sprung a leak. Soon, Schilke’s cattle were limping, with swollen legs and infections. Cows quit producing milk for their calves; they lost from sixty to eighty pounds in a week; and their tails mysteriously dropped off. (Lab rats exposed to the carcinogen 2-butoxyethanol, a solvent used in fracking, have 
lost their tails, but a similar connection with cattle hasn’t been shown. In people, breathing, touching or consuming enough of the chemical can lead to pulmonary edema and coma.)

An inveterate label reader who obsessively tracks her animals’ nutritional intake, Schilke couldn’t figure out what was wrong. Neither could local veterinarians. She nursed individual cows for weeks and, with much sorrow, put a $5,000 bull out of its misery with a bullet. Upon examination, the animal’s liver was found to be full of tunnels and its lungs congested with pneumonia. Before the year was out, five cows had died, in addition to several cats and two dogs. (Hair testing of Schilke’s  cats and dogs revealed elevated selenium levels, while water tests showed sulfate at levels high enough, Schilke’s vet told her, to cause polio in cattle.) Inside Schilke’s house today, where the china cabinets are kept empty for fear of a shattering drill-site explosion, nearly a dozen cats sneeze and cough, some with their heads tilted at a creepy angle.

Before the drilling started, two cars a day traveled down Schilke’s gravel road. Now, it’s 300 trucks hauling sand, fresh water, wastewater, chemicals, drill cuttings and drilling equipment. Most of the tankers are placarded for hazardous or radioactive material. Drilling and fracking a single well requires 2,000 truck trips, and each pass of a vehicle sends a cyclone of dust and exhaust fumes into the air. Mailbox numbers are obliterated, conversations are choked off, and animals die of “dust pneumonia.” (More formally known as bovine respiratory disease, the illness is associated with viral, fungal and bacterial infection.)

Ordinarily, Schilke hauls her calves to auction when they’re eight months old. “Buyers come from everywhere for Dakota cows,” she says. The animals are then raised on pasture or in feedlots until they are big enough for slaughter. No longer Schilke cattle, they’re soon part of the commodity food system: anonymous steaks and chops on supermarket shelves. Now, Schilke is diffident about selling her animals. “I could get good money for these steers,” she says, cocking her head toward a pair of sleek adolescents. “They seem to be in very good shape and should have been butchered. But I won’t sell them because I don’t know if they’re OK.”

Nor does anyone else. By design, secrecy shrouds the hydrofracking process, casting a shadow that extends over consumers’ right to know if their food is safe. Federal loopholes crafted under former Vice President Dick Cheney have exempted energy companies from key provisions of the Clean Air, Clean Water and Safe Drinking Water Acts, the Toxics Release Inventory, the Resource Conservation and Recovery Act, and the National Environmental Policy Act, which requires a full review of actions that may cause significant environmental impacts. If scientists and citizens can’t find out precisely what is in drilling or fracking fluids or air emissions at any given time, it’s difficult to test whether any contaminants have migrated into the water, soil or food—and whether they can harm humans. It gets even more complicated: without information on the interactions between these chemicals and others already existing in the environment, an animal’s cause of death, Bamberger says, “is anyone’s guess.”

Fracking proponents criticize Bamberger and Oswald’s paper as a political, not a scientific, document. “They used anonymous sources, so no one can verify what they said,” Steve Everley, of the industry lobby group Energy In Depth, says. The authors didn’t provide a scientific assessment of impacts—testing what quaternary ammonium compounds might do to cows that drink it, for example—so treating their findings as scientific, he continues, “is laughable at best, and dangerous for public debate at worst.” (Bamberger and Oswald acknowledge this lack of scientific assessment and blame the dearth of funding for fracking research and the industry’s use of nondisclosure agreements.)

No one doubts that fracking fluids have the potential to do serious harm. Theo Colborn, an environmental health analyst and former director of the World Wildlife Fund’s wildlife and contaminants program, identified 632 chemicals used in 
natural-gas production. More than 75 percent of them, she said, could affect sensory organs and the respiratory and 
gastrointestinal systems; 40 to 50 percent have potential impacts on the kidneys and on the nervous, immune and 
cardiovascular systems; 37 percent act on the hormone system; and 25 percent are linked with cancer or mutations…Read More at Mint Press News