Bruce G Campbell
Bruce Campbell is a Physical Scientist at the South Atlantic Water Science Center.
Currently serves as a Hydrologist for the USGS South Atlantic Water Science Center in Columbia, SC. Have 35+ years experience in geology and groundwater hydrology and have specialized in numerical simulation of groundwater flow and solute transport. Much of this work has focused on the groundwater resources of the Atlantic Coastal Plain. Have had several overseas assignments including a 2 year project in Cyprus and a project in Saudia Arabia.
Science and Products
Update for the South Carolina Atlantic Coastal Plain Groundwater Availability Model
Assessment of Groundwater Availability in Aiken County, South Carolina
Groundwater Modeling of the Edisto River Basin, South Carolina
Development and Application of a Groundwater Flow and Management Model and Assessment of Groundwater Contamination, Chesterfield County Region, South Carolina
MODFLOW-2000 data sets used in two predictive scenarios of groundwater flow and pumping (1900-2050) near Mount Pleasant, South Carolina
MODFLOW-NWT and MODPATH5 used to evaluate groundwater availability, geochemistry, and flow pathways to public-supply wells in the Atlantic Coastal Plain and bedrock aquifers, Aiken County and part of Lexington County, South Carolina, 2015-2019
Groundwater availability, geochemistry, and flow pathways to public-supply wells in the Atlantic Coastal Plain and bedrock aquifers, Aiken County and part of Lexington County, South Carolina, 2015–2019
Implications of refining vertical resolution of hydraulic conductivity in the numerical modeling of groundwater flow to surface water, NAS Whiting Field, Florida
Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina
Assessment of ethylene dibromide, dibromochloropropane, other volatile organic compounds, radium isotopes, radon, and inorganic compounds in groundwater and spring water from the Crouch Branch and McQueen Branch aquifers near McBee, South Carolina, 2010-2
Groundwater availability in the Crouch Branch and McQueen Branch aquifers, Chesterfield County, South Carolina, 1900-2012
Modeling the long-term fate of agricultural nitrate in groundwater in the San Joaquin Valley, California
Investigation of the potential source area, contamination pathway, and probable release history of chlorinated-solvent-contaminated groundwater at the Capital City Plume Site, Montgomery, Alabama, 2008-2010
Groundwater availability in the Atlantic Coastal Plain of North and South Carolina
Development of a conceptual model of groundwater flow, Chesterfield County, South Carolina
Contamination of groundwater by the fumigants ethylene dibromide (EDB) and dibromochloropropane (DBCP) near McBee, South Carolina
Simulation of Reclaimed-Water Injection and Pumping Scenarios and Particle-Tracking Analysis near Mount Pleasant, South Carolina
Hydrogeology and simulation of ground-water flow near Mount Pleasant, South Carolina: Predevelopment, 2004, and predicted scenarios for 2030
Heavy water use from the Cretaceous Middendorf aquifer in South Carolina has created a large, regional cone of depression in the potentiometric surface of the Middendorf aquifer in Charleston and Berkeley Counties, South Carolina. Water-level declines of up to 249 feet have been observed in wells over the past 125 years and are a result of ground-water use for public-water supply, irrigation, and
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Update for the South Carolina Atlantic Coastal Plain Groundwater Availability Model
Assessment of Groundwater Availability in Aiken County, South Carolina
Groundwater Modeling of the Edisto River Basin, South Carolina
Development and Application of a Groundwater Flow and Management Model and Assessment of Groundwater Contamination, Chesterfield County Region, South Carolina
MODFLOW-2000 data sets used in two predictive scenarios of groundwater flow and pumping (1900-2050) near Mount Pleasant, South Carolina
MODFLOW-NWT and MODPATH5 used to evaluate groundwater availability, geochemistry, and flow pathways to public-supply wells in the Atlantic Coastal Plain and bedrock aquifers, Aiken County and part of Lexington County, South Carolina, 2015-2019
Groundwater availability, geochemistry, and flow pathways to public-supply wells in the Atlantic Coastal Plain and bedrock aquifers, Aiken County and part of Lexington County, South Carolina, 2015–2019
Implications of refining vertical resolution of hydraulic conductivity in the numerical modeling of groundwater flow to surface water, NAS Whiting Field, Florida
Simulation of groundwater flow and pumping scenarios for 1900–2050 near Mount Pleasant, South Carolina
Assessment of ethylene dibromide, dibromochloropropane, other volatile organic compounds, radium isotopes, radon, and inorganic compounds in groundwater and spring water from the Crouch Branch and McQueen Branch aquifers near McBee, South Carolina, 2010-2
Groundwater availability in the Crouch Branch and McQueen Branch aquifers, Chesterfield County, South Carolina, 1900-2012
Modeling the long-term fate of agricultural nitrate in groundwater in the San Joaquin Valley, California
Investigation of the potential source area, contamination pathway, and probable release history of chlorinated-solvent-contaminated groundwater at the Capital City Plume Site, Montgomery, Alabama, 2008-2010
Groundwater availability in the Atlantic Coastal Plain of North and South Carolina
Development of a conceptual model of groundwater flow, Chesterfield County, South Carolina
Contamination of groundwater by the fumigants ethylene dibromide (EDB) and dibromochloropropane (DBCP) near McBee, South Carolina
Simulation of Reclaimed-Water Injection and Pumping Scenarios and Particle-Tracking Analysis near Mount Pleasant, South Carolina
Hydrogeology and simulation of ground-water flow near Mount Pleasant, South Carolina: Predevelopment, 2004, and predicted scenarios for 2030
Heavy water use from the Cretaceous Middendorf aquifer in South Carolina has created a large, regional cone of depression in the potentiometric surface of the Middendorf aquifer in Charleston and Berkeley Counties, South Carolina. Water-level declines of up to 249 feet have been observed in wells over the past 125 years and are a result of ground-water use for public-water supply, irrigation, and
Non-USGS Publications**
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.