Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota

Dates

Publication Date: 2020-08-19
Time Period: 2015-02
Time Period: 2015-06
Time Period: 2016-06
Time Period: 2017-06

Citation

Jaeschke, J.B., Cozzarelli, I.M., Kent, D., Engle, M., Mumford, A., Benthem, A., Polite, B., and Baesman, S., 2020, Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota: U.S. Geological Survey data release, https://doi.org/10.5066/P961J30G.

Summary

These metadata sets present the comprehensive geochemical composition of solid and water samples from the site of a 11.4ML (million liters) wastewater spill discovered in January, 2015. Analyses of a pipeline sample (analyses of select analytes), supplied by the North Dakota Department of Health are also included. The spill was near Blacktail Creek, north of Williston, ND. The leak was from a pipeline located approximately 70m from Blacktail Creek. The creek flows 17km before entering the Little Muddy River, a tributary to the Missouri River. The study included samples collected in waters upstream and downstream from Blacktail Creek in February and June 2015, June 2016, and June 2017. These data sets include field measurements of pH, [...]

Summary

These metadata sets present the comprehensive geochemical composition of solid and water samples from the site of a 11.4ML (million liters) wastewater spill discovered in January, 2015. Analyses of a pipeline sample (analyses of select analytes), supplied by the North Dakota Department of Health are also included. The spill was near Blacktail Creek, north of Williston, ND. The leak was from a pipeline located approximately 70m from Blacktail Creek. The creek flows 17km before entering the Little Muddy River, a tributary to the Missouri River. The study included samples collected in waters upstream and downstream from Blacktail Creek in February and June 2015, June 2016, and June 2017. These data sets include field measurements of pH, temperature, dissolved oxygen, sulfide and specific conductance; laboratory analyses of major ions, trace elements, alkalinity, ammonium, δ²H and δ¹⁸O of water, strontium and radium isotopes; non-volatile dissolved organic carbon (NVDOC), low molecular weight organic acids (LMWOA), and hydrocarbons at surface-water sites. Geomorphic characteristics and watershed similarity tables are included. Sediments were collected in February and June 2015, June 2016, and June 2017 for analysis of carbon, nitrogen, radium and uranium isotopes and extractable ammonium, strontium, and barium. Duplicate water samples and field blanks were collected during each sampling campaign. Two groundwater seep sites were sampled in June 2017 for a select number of analytes. This data release includes twelve data tables provided in two zip folders both as Excel (*.xlxs) and machine readable 'comma-separated values' format (*.csv): 1) data dictionary; 2) descriptions of sampling site locations; 3) summary of field sampling procedures; 4) field measurements, NVDOC, ammonium, alkalinity, strontium isotopes, deuterium and oxygen-18 isotopes, LMWOA and hydrocarbons; 5) concentrations of major anions, cations and trace elements; 6) radiochemistry for sediment samples; 7) extractable ammonium, barium, and strontium concentrations from sediment samples; 8) measured and computed composition of water extracts and pore water concentrations; 9) carbon and nitrogen from sediments; 10) geomorphic characteristics; 11) watershed similarity analysis; and 12) Quality Assurance/Quality Control (QA/QC). This metadata publication’s citation will be added to “Geochemical Indicators of Oil and Gas Wastewater can Trace Potential Exposure Pathways Following Releases to Surface Waters”, Cozzarelli, et al., USGS ScienceBase associated manuscript in review, summer of 2020.

Contacts

Point of Contact :: Jeanne B Jaeschke
Process Contact :: Adam J Benthem
Originator :: Jeanne B Jaeschke, Isabelle M Cozzarelli, Douglas B Kent, Mark A Engle, Adam C Mumford, Adam J Benthem, Bridgette F Polite, Shaun M Baesman
Metadata Contact :: Jeanne B Jaeschke
Publisher :: U.S. Geological Survey
Distributor :: U.S. Geological Survey - ScienceBase
USGS Mission Area :: Ecosystems
SDC Data Owner :: Office of the Associate Director for Ecosystems

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Metadata for Geochem data Blacktail Creek.xml Original FGDC Metadata	View	90.54 KB	application/fgdc+xml
Blacktail Creek xlsx files.zip		330.1 KB	application/zip
Blacktail Creek CSV files.zip		41.8 KB	application/zip
Upstream of Confluence of Blacktail Creek and Little Muddy River (WBS04).jpg		109.87 KB	image/jpeg

Related External Resources

Type: Related Primary Publication

Cozzarelli, I.M., Kent, D.B., Briggs, M., Engle, M.A., Benthem, A., Skalak, K.J., Mumford, A.C., Jaeschke, J., Farag, A., Lane, J.W., and Akob, D.M., 2021, Geochemical and geophysical indicators of oil and gas wastewater can trace potential exposure pathways following releases to surface waters: Science of The Total Environment, v. 755, p. 142909, https://doi.org/10.1016/j.scitotenv.2020.142909.	https://doi.org/10.1016/j.scitotenv.2020.142909

Purpose

Production of oil and gas (OG) resources in the Williston Basin, North Dakota could pose human and environmental health risks, in part due to large amounts of wastewater produced, often with complex geochemistry and largely uncharacterized impacts on surface waters. Wastewater can contain elevated concentrations of major ions including salts (also referred to as brines), and trace inorganic and organic constituents that can enter the environment through leaks, spills, or direct disposal. Releases have resulted in water-quality effects at other sites in West Virginia (Akob, et al., 2016). The potential effects of wastewater releases on groundwater and surface water quality has been documented in the Williston Basin region in Montana and North Dakota by Cozzarelli et al. (2017), Lauer, et al. (2016), Gleason, et al. (2014), and Mills, et al. (2011). The purpose of this data-collection effort was to document the chemical concentrations of wastewater-affected sites and determine the potential effects of this spill in Blacktail Creek and Little Muddy River. The geochemical results of samples collected in 2015-2017 could be used as a tool to assist management decisions at wastewater spill sites, thereby limiting potential environmental risks and damages.

Geochemistry Data from Samples Collected in 2015-2017 to study an OG wastewater spill in Blacktail Creek, North Dakota

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