Bruce G Campbell (Former Employee)
Science and Products
Filter Total Items: 28
A framework for assessing the sustainability of monitored natural attenuation A framework for assessing the sustainability of monitored natural attenuation
The sustainability of monitored natural attenuation (MNA) over time depends upon (1) the presence of chemical/biochemical processes that transform wastes to innocuous byproducts, and (2) the availability of energy to drive these processes to completion. The presence or absence of contaminant-transforming chemical/biochemical processes can be determined by observing contaminant mass loss...
Authors
Francis H. Chapelle, John Novak, John Parker, Bruce G. Campbell, Mark A. Widdowson
Hydrologic and geochemical evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer, Charleston, South Carolina, 1998-2002 Hydrologic and geochemical evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer, Charleston, South Carolina, 1998-2002
The hydrologic and geochemical effects of aquifer storage recovery were evaluated to determine the potential for supplying the city of Charleston, South Carolina, with large quantities of potable water during emergencies, such as earthquakes, hurricanes, or hard freezes. An aquifer storage recovery system, including a production well and three observation wells, was installed at a site...
Authors
Matthew D. Petkewich, David L. Parkhurst, Kevin J. Conlon, Bruce G. Campbell, June E. Mirecki
The roughness of natural terrain: A planetary and remote sensing perspective The roughness of natural terrain: A planetary and remote sensing perspective
We examine the various methods and parameters in common use for quantifying and reporting surface topographic "roughness." It is shown that scale-dependent roughness parameters are almost always required, though not widely used. We suggest a method of standardizing the parameters that are computed and reported so that topographic data gathered by different workers using different field...
Authors
Michael K. Shepard, Bruce A. Campbell, Mark H. Bulmer, Lisa R. Gaddis, Tom G. Farr, Jeffrey J. Plaut
Evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer near Charleston, South Carolina, 1993-95 Evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer near Charleston, South Carolina, 1993-95
No abstract available.
Authors
B. G. Campbell, K.J. Conlon, J. E. Mirecki
Documentation of model input and output values for the simulation of the ground-water flow system in the Cretaceous-age Coastal Plain aquifers of South Carolina Documentation of model input and output values for the simulation of the ground-water flow system in the Cretaceous-age Coastal Plain aquifers of South Carolina
This report and the attached 3 1/2-inch diskette contain, in compressed format, the data sets for the model of ground-water flow in the Cretaceous-age Coastal Plain aquifers of South Carolina. The data sets can be uncompressed using a program provided with this report. The uncompressed files require approximately 3.7 megabytes of disk space on an IBM-compatible microcomputer1 using the...
Authors
B. G. Campbell, Marijke van Heeswijk
Ground-water hydrology, historical water use, and simulated ground-water flow in Cretaceous-age Coastal Plain aquifers near Charleston and Florence, South Carolina Ground-water hydrology, historical water use, and simulated ground-water flow in Cretaceous-age Coastal Plain aquifers near Charleston and Florence, South Carolina
A quasi-three-dimensional, transient, digital, ground-water flow model representing the Coastal Plain aquifers of South Carolina, has been constructed to assist in defining the ground- water-flow system of Cretaceous aquifers near Charleston and Florence, S.C. Both cities are near the centers of large (greater than 150 feet) potentiometric declines in the Middendorf aquifer. In 1989, the...
Authors
B. G. Campbell, Marijke van Heeswijk
Non-USGS Publications**
Campbell, B.G., and A.L. Coes, 2007, Numerical Simulation of Ground-Water Flow within the Atlantic Coastal Plain Aquifers of North and South Carolina (abstract): Clemson University Hydrogeological Symposium
Halford. K.J., and B.G. Campbell, 2004, A unique approach to estimating lateral anisotropy in complex geohydrologic environments: Journal of Hydraulic Research, vol. 42, p. 70-79.
Campbell, B.G., and T.R. Campbell, 2000, Hydrogeology and numerical simulation of ground-water flow in the surficial aquifer at the former Naval Station Charleston, SC: Pacific Environmental Restoration Conference, Honolulu, Hawaii, 10pp.http://www.perc2000.org/private/proceedings/GWCostEst.htm
Mirecki, J.E., B.G. Campbell, K.J. Conlon and, M.D. Petkewich 1998, Solute changes during aquifer storage recovery testing in a limestone/clastic aquifer: Ground Water, vol. 36, no. 3, pp. 394-403.
Campbell, B.G., J.E. Mirecki, K.J. Conlon, and M.D. Petkewich, 1997, Evaluation of aquifer storage recovery within the Santee Limestone / Black Mingo aquifer near Charleston, South Carolina 1993-95: American Water Resources Association Proceedings, Conjunctive Use of Water Resources: Aquifer Storage Recovery, Long Beach, California, pp.231-240.
Campbell, B.G., M.D. Petkewich, J.E. Landmeyer and F.H. Chapelle, 1995, Hydrogeology and intrinsic bioremediation potential of a manufactured gas plant site, Charleston, South Carolina: U.S. Geological Survey Circular 1108.
Mirecki, J.E., K.J. Conlon and B.G. Campbell, 1995, Geochemical evolution of injected municipal water during an aquifer storage and recovery project, Charleston, South Carolina: American Geophysical Union, Baltimore, Maryland.
Campbell, B.G., 1992, Water-level declines in the Middendorf aquifer, Charleston, Berkeley and Dorchester counties, South Carolina: American Water Resources Association National Symposium on the Future Availability of Ground Water Resources, Raleigh, North Carolina.
Gohn, G.S. and B.G. Campbell, 1991, Stratigraphic analysis of Cretaceous aquifers in the greater Charleston, South Carolina area: Geological Society of America Abstracts with Programs vol. 23.
Gohn ,G.S. and B.G. Campbell, 1991, Recent revisions to the stratigraphy of subsurface Cretaceous sediments in the Charleston, South Carolina area: South Carolina Geology vol. 34, nos. 1 and 2.
**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
Filter Total Items: 28
A framework for assessing the sustainability of monitored natural attenuation A framework for assessing the sustainability of monitored natural attenuation
The sustainability of monitored natural attenuation (MNA) over time depends upon (1) the presence of chemical/biochemical processes that transform wastes to innocuous byproducts, and (2) the availability of energy to drive these processes to completion. The presence or absence of contaminant-transforming chemical/biochemical processes can be determined by observing contaminant mass loss...
Authors
Francis H. Chapelle, John Novak, John Parker, Bruce G. Campbell, Mark A. Widdowson
Hydrologic and geochemical evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer, Charleston, South Carolina, 1998-2002 Hydrologic and geochemical evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer, Charleston, South Carolina, 1998-2002
The hydrologic and geochemical effects of aquifer storage recovery were evaluated to determine the potential for supplying the city of Charleston, South Carolina, with large quantities of potable water during emergencies, such as earthquakes, hurricanes, or hard freezes. An aquifer storage recovery system, including a production well and three observation wells, was installed at a site...
Authors
Matthew D. Petkewich, David L. Parkhurst, Kevin J. Conlon, Bruce G. Campbell, June E. Mirecki
The roughness of natural terrain: A planetary and remote sensing perspective The roughness of natural terrain: A planetary and remote sensing perspective
We examine the various methods and parameters in common use for quantifying and reporting surface topographic "roughness." It is shown that scale-dependent roughness parameters are almost always required, though not widely used. We suggest a method of standardizing the parameters that are computed and reported so that topographic data gathered by different workers using different field...
Authors
Michael K. Shepard, Bruce A. Campbell, Mark H. Bulmer, Lisa R. Gaddis, Tom G. Farr, Jeffrey J. Plaut
Evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer near Charleston, South Carolina, 1993-95 Evaluation of aquifer storage recovery in the Santee Limestone/Black Mingo Aquifer near Charleston, South Carolina, 1993-95
No abstract available.
Authors
B. G. Campbell, K.J. Conlon, J. E. Mirecki
Documentation of model input and output values for the simulation of the ground-water flow system in the Cretaceous-age Coastal Plain aquifers of South Carolina Documentation of model input and output values for the simulation of the ground-water flow system in the Cretaceous-age Coastal Plain aquifers of South Carolina
This report and the attached 3 1/2-inch diskette contain, in compressed format, the data sets for the model of ground-water flow in the Cretaceous-age Coastal Plain aquifers of South Carolina. The data sets can be uncompressed using a program provided with this report. The uncompressed files require approximately 3.7 megabytes of disk space on an IBM-compatible microcomputer1 using the...
Authors
B. G. Campbell, Marijke van Heeswijk
Ground-water hydrology, historical water use, and simulated ground-water flow in Cretaceous-age Coastal Plain aquifers near Charleston and Florence, South Carolina Ground-water hydrology, historical water use, and simulated ground-water flow in Cretaceous-age Coastal Plain aquifers near Charleston and Florence, South Carolina
A quasi-three-dimensional, transient, digital, ground-water flow model representing the Coastal Plain aquifers of South Carolina, has been constructed to assist in defining the ground- water-flow system of Cretaceous aquifers near Charleston and Florence, S.C. Both cities are near the centers of large (greater than 150 feet) potentiometric declines in the Middendorf aquifer. In 1989, the...
Authors
B. G. Campbell, Marijke van Heeswijk
Non-USGS Publications**
Campbell, B.G., and A.L. Coes, 2007, Numerical Simulation of Ground-Water Flow within the Atlantic Coastal Plain Aquifers of North and South Carolina (abstract): Clemson University Hydrogeological Symposium
Halford. K.J., and B.G. Campbell, 2004, A unique approach to estimating lateral anisotropy in complex geohydrologic environments: Journal of Hydraulic Research, vol. 42, p. 70-79.
Campbell, B.G., and T.R. Campbell, 2000, Hydrogeology and numerical simulation of ground-water flow in the surficial aquifer at the former Naval Station Charleston, SC: Pacific Environmental Restoration Conference, Honolulu, Hawaii, 10pp.http://www.perc2000.org/private/proceedings/GWCostEst.htm
Mirecki, J.E., B.G. Campbell, K.J. Conlon and, M.D. Petkewich 1998, Solute changes during aquifer storage recovery testing in a limestone/clastic aquifer: Ground Water, vol. 36, no. 3, pp. 394-403.
Campbell, B.G., J.E. Mirecki, K.J. Conlon, and M.D. Petkewich, 1997, Evaluation of aquifer storage recovery within the Santee Limestone / Black Mingo aquifer near Charleston, South Carolina 1993-95: American Water Resources Association Proceedings, Conjunctive Use of Water Resources: Aquifer Storage Recovery, Long Beach, California, pp.231-240.
Campbell, B.G., M.D. Petkewich, J.E. Landmeyer and F.H. Chapelle, 1995, Hydrogeology and intrinsic bioremediation potential of a manufactured gas plant site, Charleston, South Carolina: U.S. Geological Survey Circular 1108.
Mirecki, J.E., K.J. Conlon and B.G. Campbell, 1995, Geochemical evolution of injected municipal water during an aquifer storage and recovery project, Charleston, South Carolina: American Geophysical Union, Baltimore, Maryland.
Campbell, B.G., 1992, Water-level declines in the Middendorf aquifer, Charleston, Berkeley and Dorchester counties, South Carolina: American Water Resources Association National Symposium on the Future Availability of Ground Water Resources, Raleigh, North Carolina.
Gohn, G.S. and B.G. Campbell, 1991, Stratigraphic analysis of Cretaceous aquifers in the greater Charleston, South Carolina area: Geological Society of America Abstracts with Programs vol. 23.
Gohn ,G.S. and B.G. Campbell, 1991, Recent revisions to the stratigraphy of subsurface Cretaceous sediments in the Charleston, South Carolina area: South Carolina Geology vol. 34, nos. 1 and 2.
**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.