Enviroment: Study shows clear link between Kentucky fish die-off and fracking fluid spill

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A die-off of federally listed blackside dace in Kentucky has been linked to a spill of fracking fluids. Photo courtesy U.S. Fish and Wildlife Service.

‘A precautionary tale … ‘

By Summit Voice

FRISCO — Despite ongoing obfuscation by fossil fuel companies, most people instinctively understand that fracking fluids are bad for the environment, and a new study by federal scientists supports that conclusion.

The research in Kentucky by the U.S. Geological Survey and the U.S. Fish and Wildlife Service shows that hydraulic fracturing fluids leaking from natural gas wells probably caused  the widespread death or distress of aquatic species in Kentucky’s Acorn Fork. The small Appalachian creek is habitat for the federally threatened Blackside dace, a small colorful minnow. The Acorn Fork is designated by Kentucky as an Outstanding State Resource Waters.

“Our study is a precautionary tale of how entire populations could be put at risk even with small-scale fluid spills,” said USGS scientist Diana Papoulias, the study’s lead author. “This is especially the case if the species is threatened or is only found in limited areas, like the Blackside dace is in the Cumberland.”

The Blackside dace typically lives in small, semi-isolated groups, so harmful events run the risk of completely eliminating a local population.  The species is primarily threatened with loss of habitat.

After the spill of hydraulic fracturing fluid, state and federal scientists observed a significant die-off of aquatic life in Acorn Fork including the Blackside dace as well as several more common species like the Creek chub and Green sunfish. They had been alerted by a local resident who witnessed the fish die-off. The U.S. Fish and Wildlife Service and the Commonwealth of Kentucky are currently working towards restoration of the natural resources that were injured by the release.

To determine the cause of the fish die-off, the researchers collected water and fish samples immediately following the chemical release in 2007.

The samples analyses and results clearly showed that the hydraulic fracturing fluids degraded water quality in Acorn Fork, to the point that the fish developed gill lesions, and suffered liver and spleen damage as well.

“This is an example of how the smallest creatures can act as a canary in a coal mine,” said Tony Velasco, Ecologist for the Fish and Wildlife office in Kentucky, who coauthored the study, and initiated a multi-agency response when it occurred in 2007.  “These species use the same water as we do, so it is just as important to keep our waters clean for people and for wildlife.”

The gill lesions were consistent with exposure to acidic water and toxic concentrations of heavy metals.  These results matched water quality samples from Acorn Fork that were taken after the spill.

After the fracturing fluids entered Acorn Fork Creek, the water’s pH dropped from 7.5 to 5.6, and stream conductivity increased from 200 to 35,000 microsiemens per centimeter.  A low pH number indicates that the creek had become more acidic, and the stream conductivity indicated that there were higher levels of dissolved elements including iron and aluminum.

Blackside dace are a species of ray-finned fish found only in the Cumberland River basin of Kentucky and Tennessee and the Powell River basin of Virginia.  It has been listed as a federally-threatened species by the Service since 1987.

Hydraulic fracturing is the most common method for natural gas well-development in Kentucky.

The report is entitled “Histopathological Analysis of Fish from Acorn Fork Creek, Kentucky Exposed to Hydraulic Fracturing Fluid Releases,” and is published in the scientific journal Southeastern Naturalist, in a special edition devoted to the Blackside dace.

To learn more about this study and other contaminants research, please visit the USGS Environmental Health web page, the USGS Columbia Environmental Research Center, or the U.S. Fish and Wildlife Service Environmental Contaminants web page.

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One Response

  1. Interesting that the pH of rain water in equilibrium with atmospheric CO2 is 5.3, so that this stream water has clearly equilibrated with the soil and rock over and through which it flowed, or it would be toxic to these fish.

    This article proves the point, ignored by many in the activist community, that the real hazards of fracking have little or nothing to do with the fracturing of the rock, or leaks at depth, but with the risks attendant upon handling fluids at the surface – drilling fluids, hydraulic fracturing fluids, produced water from depth, or produced hydrocarbons (the purpose of the well in the first place, but certainly toxic compounds).

    No one has yet documented a significantly elevated risk from hydraulic fracturing as opposed to normal oil and gas development. Nor is there much acknowledgement that regulations do apply to hydraulic fracturing, or else the company would not have paid fines and be cleaning up the mess they made. Fifty years of environmental regulations have not been thrown out the window.

    The Wall Street Journal has pointed out that safety records improved as major oil companies, with their high visibility, but also greater attention to technical detail, moved into major shale plays.

    By the way, the USGS, cited here for its work on this contamination, is the same agency that stated that EPA’s data on hydraulic fracturing chemicals in Pavilion Wyoming water were critically flawed. In the rush to make EPA’s end of their study a political move, the USGS analysis has been largely swept under the rug.

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