Work in this task of the Oil and Gas Waters project focuses on quantifying the effects of developing oil and gas resources. The approach is probabilistic, and it builds directly from USGS oil and gas assessment methods and geological studies. Efforts to date have revolved around quantifying habitat loss and land-use change and estimating soil loss. We are working on quantifying other types of effects and impacts.
This task began as a USGS Mendenhall Postdoctoral Fellowship and it continues with support of the USGS Energy Resources Program.
Below are other science projects associated with this project task.
Oil and Gas Waters Project
Geophysical mapping of produced water in near-surface environments
Quantities of water associated with oil and gas development
Big Data and Data Visualization
Characterization and Reuse of Oil and Gas Waters
Below are publications associated with this project task.
Oil and gas development footprint in the Piceance Basin, western Colorado
A framework for quantitative assessment of impacts related to energy and mineral resource development
- Overview
Work in this task of the Oil and Gas Waters project focuses on quantifying the effects of developing oil and gas resources. The approach is probabilistic, and it builds directly from USGS oil and gas assessment methods and geological studies. Efforts to date have revolved around quantifying habitat loss and land-use change and estimating soil loss. We are working on quantifying other types of effects and impacts.
This task began as a USGS Mendenhall Postdoctoral Fellowship and it continues with support of the USGS Energy Resources Program.
- Science
Below are other science projects associated with this project task.
Oil and Gas Waters Project
The primary objective of this project is to provide information on the volume, quality, impacts, and possible uses of water produced during generation and development of energy resources (particularly hydrocarbons) as well as related fluids injected into reservoirs for energy development and associated waste disposal. The purpose of this work is to address scientific and societal questions...Geophysical mapping of produced water in near-surface environments
This task within the Oil and Gas Waters Project focuses on the development of oil and gas resources results in substantial volumes of produced water. Particularly when produced from deep geologic formations, these waters can exhibit elevated salinity in comparison to shallow groundwater at the same location. Knowing the spatial and temporal occurrence of high salinity produced water in groundwater...Quantities of water associated with oil and gas development
Work in this task of the Oil and Gas Waters Project focuses on quantifying the water used during hydrocarbon development and the water produced along with oil and gas. Hydraulic fracturing is an integral part of oil and gas development in many areas, and water use for this purpose has increased considerably in the last decade. Water produced from petroleum reservoirs includes hydraulic fracturing...Big Data and Data Visualization
In the “Big Data and Data Visualization” task of the Oil and Gas Waters Project, we compile and update the USGS National Produced Waters Geochemical Database and use big data approaches to provide stakeholders with effortless access and modern tools for easier use and interpretation of our data.Characterization and Reuse of Oil and Gas Waters
In the “Characterization and Reuse of Oil and Gas Waters” task of the Oil and Gas Waters Project, we collect new water samples from conventional and hydraulically fractured unconventional plays in high priority oil and gas basins. Use the geochemistry of water produced along with oil and gas (a) as a tool to interpret deep basin fluid flow and to fingerprint brines from specific reservoirs, (b) to... - Publications
Below are publications associated with this project task.
Oil and gas development footprint in the Piceance Basin, western Colorado
Understanding long-term implications of energy development on ecosystem functionrequires establishing regional datasets to quantify past development and determine relationships to predict future development. The Piceance Basin in western Colorado has a history of energy production and development is expected to continue into the foreseeable future due to abundant natural gas resources. To facilitaA framework for quantitative assessment of impacts related to energy and mineral resource development
Natural resource planning at all scales demands methods for assessing the impacts of resource development and use, and in particular it requires standardized methods that yield robust and unbiased results. Building from existing probabilistic methods for assessing the volumes of energy and mineral resources, we provide an algorithm for consistent, reproducible, quantitative assessment of resource