Melinda J Chapman
Melinda Chapman is Director of the Pennsylvania Water Science Center.
Professional Experience
2017-2019 Supervisory Hydrologist, Office of Quality Assurance, Water Mission Area headquarters, Reston, Virginia
2015-2017 Assistant Chief, Office of Groundwater, Water Mission Area headquarters, Reston, Virginia
2000-2015 Groundwater Specialist, North Carolina/South Atlantic Water Science Center, Raleigh, North Carolina
1989-2000 Groundwater Hydrologist, Georgia District, Norcross, Georgia
Education and Certifications
Master of Science in Geology with emphasis on hydrogeology and geophysics, The Ohio State University
Undergraduate degree in Geology, West Georgia College
Science and Products
Filter Total Items: 22
Hydraulic properties of the surficial aquifer at five selected sites in the Little Contentnea Creek basin, North Carolina, 2002-03 Hydraulic properties of the surficial aquifer at five selected sites in the Little Contentnea Creek basin, North Carolina, 2002-03
No abstract available.
Authors
Douglas G. Smith, Melinda J. Chapman
Geology and ground-water resources of the Lawrenceville area, Georgia Geology and ground-water resources of the Lawrenceville area, Georgia
The population of the Atlanta Metropolitan area continues to grow at a rapid pace and the demand for water supplies steadily increases. Exploration for ground-water resources, as a supplement to surface-water supplies, is being undertaken by many city and county governments. The application of effective investigative methods to characterization of the complex igneous and metamorphic...
Authors
Melinda J. Chapman, Thomas J. Crawford, W. Todd Tharpe
Ground-water resources of the middle Chattahoochee River basin in Georgia and Alabama, and upper Flint River basin in Georgia - Subarea 2 of the Apalachicola-Chattahoochee-Flint and Alabama-Coosa-Tallapoosa river basins Ground-water resources of the middle Chattahoochee River basin in Georgia and Alabama, and upper Flint River basin in Georgia - Subarea 2 of the Apalachicola-Chattahoochee-Flint and Alabama-Coosa-Tallapoosa river basins
No abstract available.
Authors
Melinda J. Chapman, Michael F. Peck
Use of directional borehole radar and azimuthal square-array D.C. resistivity methods to characterize a crystalline-bedrock aquifer Use of directional borehole radar and azimuthal square-array D.C. resistivity methods to characterize a crystalline-bedrock aquifer
No abstract available.
Authors
Melinda J. Chapman, John W. Lane
Science and Products
Filter Total Items: 22
Hydraulic properties of the surficial aquifer at five selected sites in the Little Contentnea Creek basin, North Carolina, 2002-03 Hydraulic properties of the surficial aquifer at five selected sites in the Little Contentnea Creek basin, North Carolina, 2002-03
No abstract available.
Authors
Douglas G. Smith, Melinda J. Chapman
Geology and ground-water resources of the Lawrenceville area, Georgia Geology and ground-water resources of the Lawrenceville area, Georgia
The population of the Atlanta Metropolitan area continues to grow at a rapid pace and the demand for water supplies steadily increases. Exploration for ground-water resources, as a supplement to surface-water supplies, is being undertaken by many city and county governments. The application of effective investigative methods to characterization of the complex igneous and metamorphic...
Authors
Melinda J. Chapman, Thomas J. Crawford, W. Todd Tharpe
Ground-water resources of the middle Chattahoochee River basin in Georgia and Alabama, and upper Flint River basin in Georgia - Subarea 2 of the Apalachicola-Chattahoochee-Flint and Alabama-Coosa-Tallapoosa river basins Ground-water resources of the middle Chattahoochee River basin in Georgia and Alabama, and upper Flint River basin in Georgia - Subarea 2 of the Apalachicola-Chattahoochee-Flint and Alabama-Coosa-Tallapoosa river basins
No abstract available.
Authors
Melinda J. Chapman, Michael F. Peck
Use of directional borehole radar and azimuthal square-array D.C. resistivity methods to characterize a crystalline-bedrock aquifer Use of directional borehole radar and azimuthal square-array D.C. resistivity methods to characterize a crystalline-bedrock aquifer
No abstract available.
Authors
Melinda J. Chapman, John W. Lane