Disaster Emergency Declared for Colorado Gold King Mine Release

Colorado Governor declares disaster emergency for Gold King Mine release

Gov. Hickenlooper has issued an Executive Order declaring a state of disaster emergency due to the Gold King Mine release and resulting impacts to downstream waters.

Workers employed by the Environmental Protection Agency (EPA) triggered a breach at the Gold King Mine outside Silverton in San Juan County on August 5, 2015. The breach released a plume of more than three million gallons of water containing potentially harmful contaminants into Cement Creek, which flowed into the Animas River and continued downstream, according to a statement released by the governor’s office.

Elements contained in the plume turned the water a striking mustard-yellow, and graphic images of the discolored water have contributed to community concern about river impacts and water quality. The Southern Ute Tribe, the counties of La Plata and San Juan, the City of Durango, and the Town of Silverton all declared disaster emergencies, highlighting the gravity and severity of impacts to Cement Creek, the Animas River, the San Juan River, and downstream waters. Local authorities have closed the affected rivers to all uses, causing significant local economic impacts. The extreme flow rate of the plume caused significant damage to the Cement Creek stream bed resulting in sedimentation uptake and downstream deposits in both Cement Creek and the Animas River. All of these impacts require emergency action by the Southern Ute Tribe, the State of Colorado, and local officials to avert loss of life, injury, danger or damage, including but not limited to unknown economic, financial and natural resources impacts.  The full Executive Order is attached here.

 The Executive Order will last for 30 days unless extended by the governor.

Massive waste spill “accidentally released” by EPA investigators turns river in Colorado bright orange. Image source: Earth Justice

Related Links

• Mine Waste Ends in River—One Way or Another August 8, 2015

Mine Waste Ends in River—One Way or Another

EPA spills 1 million gallons of mine waste into Animas River, Colorado 

The Environmental Protection Agency (EPA), together with the state Division of Reclamation, Mining and Safety, were reportedly investigating an abandoned mine on Wednesday when they “unexpectedly triggered a large release of mine waste water into the upper portions of Cement Creek [a tributary of the Animas River,]” said San Juan County health officials.

The waste spill from Gold King Mine turned water in the river bright orange.

Massive waste spill caused by EPA investigators turns river in Colorado bright orange. Image source: Earth Justice

EPA has advised nearby residents to keep away from the contaminated river pending the results of official tests.

“The primary environmental concern is the pulse of contaminated water containing sediment and metals flowing as an orange-colored discharge downstream,” said EPA spokesman.

Statement on Oklahoma Seismicity: OGS

Seismic shift: Oklahoma earthquakes caused by wastewater injection

Oklahoma geologists say they now believe the majority of the state’s earthquakes are triggered by the oil and gas industry’s disposal of massive amounts of water underground.

They have measured the seismicity rate which is now more than 600 times greater than the background seismicity rate, and therefore highly unlikely to be the result of a natural process.

[They have missed a number of key details, including the “signature depth” at which the majority of the quakes are occurring. FEWW Scientific Team]

The government scientists at Oklahoma Geological Survey have issued the following statement:

Statement on Oklahoma Seismicity

Based on observed seismicity rates and geographical trends following major oil and gas plays with large amounts of produced water, the rates and trends in seismicity are very unlikely to represent a naturally occurring process. Historically, the Oklahoma Geological Survey (OGS) recorded on average about 1 ½, magnitude three or greater (M3+) earthquakes each year, within Oklahoma. During 2013, the OGS observed on average about 2, M3+ earthquakes each week on average, and this rate continued to increase during 2014. Currently, the OGS is reporting on average about 2 ½, M3+ earthquakes each day. The OGS considers it very likely that the majority of recent earthquakes, particularly those in central and north-­‐central Oklahoma, are triggered by the injection of produced water in disposal wells.

The primary suspected source of triggered seismicity is not from hydraulic fracturing, but from the injection/disposal of water associated with oil and gas production. Produced water is naturally occurring water within the Earth that is often high in salinity and co-­‐ exists with oil and gas in the subsurface. As the oil and gas is extracted/produced, so is the water. This water is then separated from the oil and gas and re-­‐injected into disposal wells, often at greater depth from which it was produced. However, it is often stated that disposed water is wastewater from hydraulic fracturing. While there are large amounts of wastewater generated from hydraulic fracturing, this volume represents a small percentage of the total volume of wastewater injected in disposal wells in Oklahoma.

The observed seismicity of greatest concentration, namely in central and north-­‐central Oklahoma, can be observed to follow the oil and gas plays characterized by large amounts of produced water. Seismicity rates are observed to increase after a time-­‐delay as injection volumes increase within these plays. In central and north-­‐central Oklahoma, this time-­‐delay can be weeks to a year or more.

The OGS can document the following geological and geophysical characteristics related to the recent earthquake activity within Oklahoma.

• The seismicity rate in 2013 was 70 times greater than the background seismicity rate observed in Oklahoma prior to 2008. While unlikely, this rate could have been potentially explained by natural variations in earthquake rates from naturally occurring swarms. The seismicity rate is now about 600 times greater than the background seismicity rate, and is very unlikely the result of a natural process.
• The majority of earthquakes in central and north-­‐central Oklahoma occur as earthquake swarms and not in the typical foreshock-­‐mainshock-­‐aftershock sequences that are characteristic of naturally occurring earthquake sequences throughout the world in a variety of tectonic settings. However, it is recognized that naturally occurring earthquake swarms do occur and have occurred within the region.
•  These earthquakes swarms are occurring over a large area, about 15% of the area of Oklahoma, that has experienced significant increase in wastewater disposal volumes over the last several years.
• The earthquakes are primarily occurring on faults that are optimally and sub-­‐ optimally oriented within Oklahoma’s tectonic stress regime.
• Both triggered and naturally occurring earthquakes release accumulated tectonic stress on these faults.
• Most of the earthquakes in Oklahoma are occurring within crystalline basement, deeper than most oil and gas operations. However, reactivation of deeper basement faults from water injection/disposal at shallower depths is often observed in cases of triggered seismicity.
• The majority of wastewater disposal is targeted for injection in the Arbuckle formations, which closely overlie the crystalline basement.
• As a result of high bulk permeability within sections of the Arbuckle, pressure from water injection/disposal may be transmitted several miles from an injection site.
• The high density of injection wells in central and north-­‐central Oklahoma combined with the high permeabilites within the Arbuckle makes identifying relationships between specific wells and seismic activity difficult.

The OGS endeavors to accurately document seismicity within Oklahoma, and is increasing its capability to improve earthquake monitoring and data products. This includes the addition of staff, as well as updating and adding seismic equipment to improve seismic monitoring coverage throughout the state. In addition, the OGS is compiling a database of known fault locations within Oklahoma from published scientific literature and voluntarily fault data contributions from the Oklahoma Independent Petroleum Association (OIPA). The OGS also participates in projects with the United States Geological Survey (USGS) and other researchers worldwide in the ongoing investigation of Oklahoma seismicity.

The OGS also works closely with the Oklahoma Corporation Commission (OCC) to provide information on Oklahoma seismicity and research publications on triggered and induced seismicity. The OGS collaborates with the Interstate Oil and Gas Compact Commission and Ground Water Protection Council States First Initiative Workgroup on Induced Seismicity in multi-­‐state efforts to better understand the problem and develop a regulatory framework.

The OGS continues to make its data and data products publicly available in a timely manner, and to contribute to research and the public discussion of earthquakes in Oklahoma. As communicated in the joint USGS/OGS statement dated May 2, 2014, the earthquake hazard in Oklahoma has increased due to the increased rate of seismicity. It is important for Oklahomans to learn what to do during a significant earthquake, and be prepared. The OGS and the Oklahoma Office Emergency Management provide such information on their respective websites.

Oklahoma Geological Survey
Richard D. Andrews, Interim Director and State Geologist
Dr. Austin Holland, State Seismologist
April 21, 2015