Kathleen S (Kathy) Smith, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 68
Predicting toxic effects of metals on aquatic biota in mineralized areas using the biotic ligand model Predicting toxic effects of metals on aquatic biota in mineralized areas using the biotic ligand model
No abstract available.
Authors
Kathleen S. Smith, James F. Ranville, Stan E. Church, David L. Fey, Richard B. Wanty, James G. Crock
Sampling strategy for the rapid screening of mine-waste dumps on abandoned mine lands Sampling strategy for the rapid screening of mine-waste dumps on abandoned mine lands
No abstract available.
Authors
Kathleen S. Smith, Charles A. Ramsey, Philip L. Hageman
Leaching studies of schwertmannite-rich precipitates from the Animas River Headwaters, Colorado and Boulder River Headwaters, Montana Leaching studies of schwertmannite-rich precipitates from the Animas River Headwaters, Colorado and Boulder River Headwaters, Montana
No abstract available.
Authors
George A. Desborough, R. W. Leinz, S. J. Sutley, Paul H. Briggs, G.A. Swayze, K. S. Smith, G. N. Breit
Effects of fluvial tailings deposits on soils and surface- and ground-water quality, and implications for remediation — Upper Arkansas River, Colorado, 1992–96 Effects of fluvial tailings deposits on soils and surface- and ground-water quality, and implications for remediation — Upper Arkansas River, Colorado, 1992–96
No abstract available.
Authors
Katherine Walton-Day, F. J. Rossi, L. J. Gerner, J. B. Evans, T. J. Yager, J. F. Ranville, K. S. Smith
Using imaging spectroscopy to map acidic mine waste Using imaging spectroscopy to map acidic mine waste
The process of pyrite oxidation at the surface of mine waste may produce acidic water that is gradually neutralized as it drains away from the waste, depositing different Fe-bearing secondary minerals in roughly concentric zones that emanate from mine-waste piles. These Fe-bearing minerals are indicators of the geochemical conditions under which they form. Airborne and orbital imaging
Authors
G.A. Swayze, K. S. Smith, R. N. Clark, S. J. Sutley, R.M. Pearson, J.S. Vance, P. L. Hageman, Paul H. Briggs, A. L. Meier, M.J. Singleton, S. Roth
Geologic controls on the composition of natural waters and mine waters draining diverse mineral-deposit types Geologic controls on the composition of natural waters and mine waters draining diverse mineral-deposit types
No abstract available.
Authors
Geoffrey S. Plumlee, K. S. Smith, M. R. Montour, W. H. Ficklin, E. L. Mosier
Science and Products
Filter Total Items: 68
Predicting toxic effects of metals on aquatic biota in mineralized areas using the biotic ligand model Predicting toxic effects of metals on aquatic biota in mineralized areas using the biotic ligand model
No abstract available.
Authors
Kathleen S. Smith, James F. Ranville, Stan E. Church, David L. Fey, Richard B. Wanty, James G. Crock
Sampling strategy for the rapid screening of mine-waste dumps on abandoned mine lands Sampling strategy for the rapid screening of mine-waste dumps on abandoned mine lands
No abstract available.
Authors
Kathleen S. Smith, Charles A. Ramsey, Philip L. Hageman
Leaching studies of schwertmannite-rich precipitates from the Animas River Headwaters, Colorado and Boulder River Headwaters, Montana Leaching studies of schwertmannite-rich precipitates from the Animas River Headwaters, Colorado and Boulder River Headwaters, Montana
No abstract available.
Authors
George A. Desborough, R. W. Leinz, S. J. Sutley, Paul H. Briggs, G.A. Swayze, K. S. Smith, G. N. Breit
Effects of fluvial tailings deposits on soils and surface- and ground-water quality, and implications for remediation — Upper Arkansas River, Colorado, 1992–96 Effects of fluvial tailings deposits on soils and surface- and ground-water quality, and implications for remediation — Upper Arkansas River, Colorado, 1992–96
No abstract available.
Authors
Katherine Walton-Day, F. J. Rossi, L. J. Gerner, J. B. Evans, T. J. Yager, J. F. Ranville, K. S. Smith
Using imaging spectroscopy to map acidic mine waste Using imaging spectroscopy to map acidic mine waste
The process of pyrite oxidation at the surface of mine waste may produce acidic water that is gradually neutralized as it drains away from the waste, depositing different Fe-bearing secondary minerals in roughly concentric zones that emanate from mine-waste piles. These Fe-bearing minerals are indicators of the geochemical conditions under which they form. Airborne and orbital imaging
Authors
G.A. Swayze, K. S. Smith, R. N. Clark, S. J. Sutley, R.M. Pearson, J.S. Vance, P. L. Hageman, Paul H. Briggs, A. L. Meier, M.J. Singleton, S. Roth
Geologic controls on the composition of natural waters and mine waters draining diverse mineral-deposit types Geologic controls on the composition of natural waters and mine waters draining diverse mineral-deposit types
No abstract available.
Authors
Geoffrey S. Plumlee, K. S. Smith, M. R. Montour, W. H. Ficklin, E. L. Mosier