Bill Evans, PhD (Former Employee)
Science and Products
Filter Total Items: 110
Geochemistry of some gases in hydrothermal fluids from the southern Juan de Fuca Ridge Geochemistry of some gases in hydrothermal fluids from the southern Juan de Fuca Ridge
Five samples of hydrothermal fluids from two vent areas on the southern Juan de Fuca Ridge were analyzed for dissolved gases. Concentrations in the end-member hydrothermal fluid of H2 (270–527 μmol/kg), CH4 (82–118 μmol/kg), and CO2 (3920–4460 μmol/kg) are well above values in ambient seawater and are similar to concentrations reported for other ridge crest hydrothermal systems. The...
Authors
William C. Evans, L. D. White, J. B. Rapp
Geochemistry of water at Cajon Pass, California: Preliminary results Geochemistry of water at Cajon Pass, California: Preliminary results
Samples of water and associated gases were collected from the Cajon Pass well using downhole samplers, and from the pipe stands at the completion of drill stem tests. The fluids were recovered from fracture systems in granitic rocks from two uncased test intervals located at 1,829 to 1,905 m and 1,829 to 2,115 m. Results of chemical analysis indicate major differences in the composition...
Authors
Y.K. Kharaka, G. Ambats, William C. Evans, A. F. White
Dissolved gases in the DOSECC Cajon Pass well: First year results Dissolved gases in the DOSECC Cajon Pass well: First year results
Fluid sampled from granitic rock near the 2 km depth in the DOSECC Cajon Pass well contained He, H2, CH4, C2H6, and C2H4 in concentrations much greater than in air-saturated water. The dissolved helium, which ranged in concentration from 0.6 to 0.8 µmole/kg-fluid, was almost entirely radiogenic (³He/4He = 0.06 Ra). The δ13C-CH4 value (−36 per mil) and (C2H6 + C2H4)/CH4 ratios (0.02 - 0...
Authors
William C. Evans, L. D. White, Y.K. Kharaka
Origin of the lethal gas burst from Lake Monoun, Cameroun Origin of the lethal gas burst from Lake Monoun, Cameroun
On 15 August, 1984, a lethal gas burst issued from a submerged 96-m-deep crater in Lake Monoun in Cameroun, western Africa, killing 37 people. The event was associated with a landslide from the eastern crater rim, which slumped into deep water. Waters below 50 m are anoxic, dominated by high Fe2+ (???600 mg/l) and HCO3- (??? 1900 mg/l), anoxic and supersaturated with siderite, which is a...
Authors
Haraldur Sigurdsson, J.D. Devine, F.M. Tchua, F.M. Presser, M.K.W. Pringle, William C. Evans
The 21 August 1986 Lake Nyos gas disaster, Cameroon; final report of the United States scientific team to the Office of U.S. Foreign Disaster Assistance of the Agency for International Development The 21 August 1986 Lake Nyos gas disaster, Cameroon; final report of the United States scientific team to the Office of U.S. Foreign Disaster Assistance of the Agency for International Development
No abstract available.
Authors
M. L. Tuttle, M.A. Clark, H.R. Compson, J.D. Devine, William C. Evans, A.M. Humphrey, G.W. Kling, E.J. Koenigsberg, J. P. Lockwood, G.N. Wagner
Liquid carbon dioxide of magmatic origin and its role in volcanic eruptions Liquid carbon dioxide of magmatic origin and its role in volcanic eruptions
Natural liquid carbon dioxide is produced commercially from a 2.5-km-deep well near the 4,500-yr-old maar volcano, Mount Gambier, South Australia. The carbon dioxide has accumulated in a dome that is located on the extension of a linear chain of volcanic activity. A magmatic origin for the fluid is suggested by the geological setting, δ13CPDB of –4.0‰, for the CO2 (where PDB represents...
Authors
A.R. Chivas, I. Barnes, William C. Evans, J.E. Lupton, J.O. Stone
Chemical and isotopic compositions of selected soda and hot spring waters and gases, Colorado Chemical and isotopic compositions of selected soda and hot spring waters and gases, Colorado
No abstract available.
Authors
T. S. Presser, William C. Evans, L. D. White, Ivan Barnes
Chemical and isotopic composition of water from thermal springs and mineral springs of Washington Chemical and isotopic composition of water from thermal springs and mineral springs of Washington
Water from thermal springs of Washington range in chemical composition from dilute NaHC03, to moderately saline C02-charged NaHC03-Cl waters. St. Martin 's Hot Spring which discharges a slightly saline NaCl water, is the notable exception. Mineral springs generally discharge a moderately saline C02-charged NaHC03-Cl water. The dilute Na-HC03 waters are generally associated with granite...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
Anomalous chemical changes in well waters and possible relation to earthquakes Anomalous chemical changes in well waters and possible relation to earthquakes
Water level, temperature, salinity, electric conductivity, and pH have been measured periodically for several years at three water wells located along a 17-km segment of the San Andreas fault between San Juan Bautista and Cienega Winery in central California. Water samples were collected at the same time for subsequent chemical analyses in the laboratory. Some sudden large changes in...
Authors
Chi-Yu King, William C. Evans, T. Presser, R.H. Husk
Chemical and isotopic data for water from thermal springs and wells of Oregon Chemical and isotopic data for water from thermal springs and wells of Oregon
No abstract available.
Authors
Robert H. Mariner, J.R. Swanson, G. J. Orris, T. S. Presser, William C. Evans
Chemical, isotopic, and gas compositions of selected thermal springs in Arizona, New Mexico, and Utah Chemical, isotopic, and gas compositions of selected thermal springs in Arizona, New Mexico, and Utah
Twenty-seven thermal springs in Arizona, New Mexico, and Utah were sampled for detailed chemical and isotopic analysis. The springs issue sodium chloride, sodium bicarbonate, or sodium mixed-anion waters of near neutral (6.2) to alkaline (9.2) pH. High concentrations of fluoride, more than 8 milligrams per liter, occur in Arizona in waters from Gillard Hot Springs, Castle Hot Springs...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
Hot springs of the central Sierra Nevada, California Hot springs of the central Sierra Nevada, California
Thermal springs of the central Sierra Nevada issue dilute to slightly saline sodium chloride, sodium bicarbonate, or sodium mixed-anion waters ranging in pH from 6.4 to 9.3. The solubility of chalcedony appears to control the silica concentration in most of the spring waters. Fales Hot Springs may be associated with a higher temperature aquifer, 150 degrees Celsius or more, in which...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
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
Filter Total Items: 110
Geochemistry of some gases in hydrothermal fluids from the southern Juan de Fuca Ridge Geochemistry of some gases in hydrothermal fluids from the southern Juan de Fuca Ridge
Five samples of hydrothermal fluids from two vent areas on the southern Juan de Fuca Ridge were analyzed for dissolved gases. Concentrations in the end-member hydrothermal fluid of H2 (270–527 μmol/kg), CH4 (82–118 μmol/kg), and CO2 (3920–4460 μmol/kg) are well above values in ambient seawater and are similar to concentrations reported for other ridge crest hydrothermal systems. The...
Authors
William C. Evans, L. D. White, J. B. Rapp
Geochemistry of water at Cajon Pass, California: Preliminary results Geochemistry of water at Cajon Pass, California: Preliminary results
Samples of water and associated gases were collected from the Cajon Pass well using downhole samplers, and from the pipe stands at the completion of drill stem tests. The fluids were recovered from fracture systems in granitic rocks from two uncased test intervals located at 1,829 to 1,905 m and 1,829 to 2,115 m. Results of chemical analysis indicate major differences in the composition...
Authors
Y.K. Kharaka, G. Ambats, William C. Evans, A. F. White
Dissolved gases in the DOSECC Cajon Pass well: First year results Dissolved gases in the DOSECC Cajon Pass well: First year results
Fluid sampled from granitic rock near the 2 km depth in the DOSECC Cajon Pass well contained He, H2, CH4, C2H6, and C2H4 in concentrations much greater than in air-saturated water. The dissolved helium, which ranged in concentration from 0.6 to 0.8 µmole/kg-fluid, was almost entirely radiogenic (³He/4He = 0.06 Ra). The δ13C-CH4 value (−36 per mil) and (C2H6 + C2H4)/CH4 ratios (0.02 - 0...
Authors
William C. Evans, L. D. White, Y.K. Kharaka
Origin of the lethal gas burst from Lake Monoun, Cameroun Origin of the lethal gas burst from Lake Monoun, Cameroun
On 15 August, 1984, a lethal gas burst issued from a submerged 96-m-deep crater in Lake Monoun in Cameroun, western Africa, killing 37 people. The event was associated with a landslide from the eastern crater rim, which slumped into deep water. Waters below 50 m are anoxic, dominated by high Fe2+ (???600 mg/l) and HCO3- (??? 1900 mg/l), anoxic and supersaturated with siderite, which is a...
Authors
Haraldur Sigurdsson, J.D. Devine, F.M. Tchua, F.M. Presser, M.K.W. Pringle, William C. Evans
The 21 August 1986 Lake Nyos gas disaster, Cameroon; final report of the United States scientific team to the Office of U.S. Foreign Disaster Assistance of the Agency for International Development The 21 August 1986 Lake Nyos gas disaster, Cameroon; final report of the United States scientific team to the Office of U.S. Foreign Disaster Assistance of the Agency for International Development
No abstract available.
Authors
M. L. Tuttle, M.A. Clark, H.R. Compson, J.D. Devine, William C. Evans, A.M. Humphrey, G.W. Kling, E.J. Koenigsberg, J. P. Lockwood, G.N. Wagner
Liquid carbon dioxide of magmatic origin and its role in volcanic eruptions Liquid carbon dioxide of magmatic origin and its role in volcanic eruptions
Natural liquid carbon dioxide is produced commercially from a 2.5-km-deep well near the 4,500-yr-old maar volcano, Mount Gambier, South Australia. The carbon dioxide has accumulated in a dome that is located on the extension of a linear chain of volcanic activity. A magmatic origin for the fluid is suggested by the geological setting, δ13CPDB of –4.0‰, for the CO2 (where PDB represents...
Authors
A.R. Chivas, I. Barnes, William C. Evans, J.E. Lupton, J.O. Stone
Chemical and isotopic compositions of selected soda and hot spring waters and gases, Colorado Chemical and isotopic compositions of selected soda and hot spring waters and gases, Colorado
No abstract available.
Authors
T. S. Presser, William C. Evans, L. D. White, Ivan Barnes
Chemical and isotopic composition of water from thermal springs and mineral springs of Washington Chemical and isotopic composition of water from thermal springs and mineral springs of Washington
Water from thermal springs of Washington range in chemical composition from dilute NaHC03, to moderately saline C02-charged NaHC03-Cl waters. St. Martin 's Hot Spring which discharges a slightly saline NaCl water, is the notable exception. Mineral springs generally discharge a moderately saline C02-charged NaHC03-Cl water. The dilute Na-HC03 waters are generally associated with granite...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
Anomalous chemical changes in well waters and possible relation to earthquakes Anomalous chemical changes in well waters and possible relation to earthquakes
Water level, temperature, salinity, electric conductivity, and pH have been measured periodically for several years at three water wells located along a 17-km segment of the San Andreas fault between San Juan Bautista and Cienega Winery in central California. Water samples were collected at the same time for subsequent chemical analyses in the laboratory. Some sudden large changes in...
Authors
Chi-Yu King, William C. Evans, T. Presser, R.H. Husk
Chemical and isotopic data for water from thermal springs and wells of Oregon Chemical and isotopic data for water from thermal springs and wells of Oregon
No abstract available.
Authors
Robert H. Mariner, J.R. Swanson, G. J. Orris, T. S. Presser, William C. Evans
Chemical, isotopic, and gas compositions of selected thermal springs in Arizona, New Mexico, and Utah Chemical, isotopic, and gas compositions of selected thermal springs in Arizona, New Mexico, and Utah
Twenty-seven thermal springs in Arizona, New Mexico, and Utah were sampled for detailed chemical and isotopic analysis. The springs issue sodium chloride, sodium bicarbonate, or sodium mixed-anion waters of near neutral (6.2) to alkaline (9.2) pH. High concentrations of fluoride, more than 8 milligrams per liter, occur in Arizona in waters from Gillard Hot Springs, Castle Hot Springs...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
Hot springs of the central Sierra Nevada, California Hot springs of the central Sierra Nevada, California
Thermal springs of the central Sierra Nevada issue dilute to slightly saline sodium chloride, sodium bicarbonate, or sodium mixed-anion waters ranging in pH from 6.4 to 9.3. The solubility of chalcedony appears to control the silica concentration in most of the spring waters. Fales Hot Springs may be associated with a higher temperature aquifer, 150 degrees Celsius or more, in which...
Authors
Robert H. Mariner, T. S. Presser, William C. Evans
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.