Watershed Contamination from Hard Rock Mining
Since 1986, the USGS Hard-Rock Mining Toxic-Substances Hydrology Project has focused on metal transport in streams affected by mining. Tracer-injection studies in St. Kevin Gulch, near Leadville, Colorado, helped the USGS design methods to characterize loading from mining activities on a watershed scale. Tracer-injection studies were done in 1995, in support of the planning needs of ederal Land Management Agencies, and as part of the USGS Abandoned Mine Land Initiative.
The approach was to study chemical processes within a hydrologic context, using a two-step approach:
- First, the USGS used instream experimentation to provide data about the processes affecting metals.
- Second, the USGS used the resulting data sets to develop and apply solute transport models to help quantify rates and processes.
Tracer-injection studies in St. Kevin Gulch, near Leadville, Colorado, helped the USGS design methods to characterize loading from mining activities on a watershed scale. Tracer-injection studies were done in 1995, in support of the planning needs of Federal Land Management Agencies, and as part of the USGS Abandoned Mine Land Initiative.
OBJECTIVES:
- To characterize the instream chemical processes that control the transport and transformation of metals downstream from mine drainage.
- To use tracer-injection methods to evaluate remediation efforts in selected basins.
- To quantify the time and length scales of chemical and hydrologic processes that affect the metals through development of solute-transport models.
- To characterize the chemistry of colloids, sediment, and bed sediments that are active in controlling the dissolved concentrations of metals.
Below are other science projects associated with this project.
Upper Arkansas River Basin Toxics and Synoptic Studies
Watershed Contamination from Metal and Uranium Mining
Below are publications associated with this project.
Selected hydrologic data for Little Cottonwood Creek, Salt Lake County, Utah, September 1998
Using OTIS to model solute transport in streams and rivers
Modeling impact of storage zones on stream dissolved oxygen
Quantification of metal loading in Fisher Creek by tracer injection and synoptic sampling, Park County, Montana, August 1997
Quantification of metal loading in French Gulch, Summit County, Colorado, using a tracer-injection study, July 1996
U.S. Geological Survey Toxic Substances Hydrology Program: Proceedings of the technical meeting, Charleston, South Carolina, March 8-12, 1999: Volume 2 (Part B)
One-Dimensional Transport with Inflow and Storage (OTIS): A Solute Transport Model for Streams and Rivers
Use of tracer injections and synoptic sampling to measure metal loading from acid mine drainage
Below are partners associated with this project.
Since 1986, the USGS Hard-Rock Mining Toxic-Substances Hydrology Project has focused on metal transport in streams affected by mining. Tracer-injection studies in St. Kevin Gulch, near Leadville, Colorado, helped the USGS design methods to characterize loading from mining activities on a watershed scale. Tracer-injection studies were done in 1995, in support of the planning needs of ederal Land Management Agencies, and as part of the USGS Abandoned Mine Land Initiative.
The approach was to study chemical processes within a hydrologic context, using a two-step approach:
- First, the USGS used instream experimentation to provide data about the processes affecting metals.
- Second, the USGS used the resulting data sets to develop and apply solute transport models to help quantify rates and processes.
Tracer-injection studies in St. Kevin Gulch, near Leadville, Colorado, helped the USGS design methods to characterize loading from mining activities on a watershed scale. Tracer-injection studies were done in 1995, in support of the planning needs of Federal Land Management Agencies, and as part of the USGS Abandoned Mine Land Initiative.
OBJECTIVES:
- To characterize the instream chemical processes that control the transport and transformation of metals downstream from mine drainage.
- To use tracer-injection methods to evaluate remediation efforts in selected basins.
- To quantify the time and length scales of chemical and hydrologic processes that affect the metals through development of solute-transport models.
- To characterize the chemistry of colloids, sediment, and bed sediments that are active in controlling the dissolved concentrations of metals.
Below are other science projects associated with this project.
Upper Arkansas River Basin Toxics and Synoptic Studies
Watershed Contamination from Metal and Uranium Mining
Below are publications associated with this project.
Selected hydrologic data for Little Cottonwood Creek, Salt Lake County, Utah, September 1998
Using OTIS to model solute transport in streams and rivers
Modeling impact of storage zones on stream dissolved oxygen
Quantification of metal loading in Fisher Creek by tracer injection and synoptic sampling, Park County, Montana, August 1997
Quantification of metal loading in French Gulch, Summit County, Colorado, using a tracer-injection study, July 1996
U.S. Geological Survey Toxic Substances Hydrology Program: Proceedings of the technical meeting, Charleston, South Carolina, March 8-12, 1999: Volume 2 (Part B)
One-Dimensional Transport with Inflow and Storage (OTIS): A Solute Transport Model for Streams and Rivers
Use of tracer injections and synoptic sampling to measure metal loading from acid mine drainage
Below are partners associated with this project.