Steven Phillips (Former Employee)
Science and Products
Filter Total Items: 22
Water-level changes (1975-98) in the Antelope Valley, California Water-level changes (1975-98) in the Antelope Valley, California
Antelope Valley is in the western part of the Mojave Desert in southern California, about 50 mi northeast of Los Angeles. Between 1975 and 1998, water levels in the valley have changed in response to a shift in ground-water use from agricultural to urban, declining in some areas and rising in others. A study to document these changes was conducted by the U.S. Geological Survey in...
Authors
Carl S. Carlson, Steven P. Phillips
Land use and water use in the Antelope Valley, California Land use and water use in the Antelope Valley, California
Urban land use and water use in the Antelope Valley, California, have increased significantly since development of the valley began in the late 1800's.. Ground water has been a major source of water in this area because of limited local surface-water resources. Ground-water pumpage is reported to have increased from about 29,000 acre-feet in 1919 to about 400,000 acre-feet in the 1950's
Authors
William E. Templin, Steven P. Phillips, Daniel E. Cherry, Myrna L. DeBortoli, T.C. Haltom, Kelly R. McPherson, C.A. Mrozek
Numerical simulation of ground-water flow in the central part of the western San Joaquin Valley, California Numerical simulation of ground-water flow in the central part of the western San Joaquin Valley, California
The occurrence of selenium in agricultural drain water in the central part of the western San Joaquin Valley, California, has focused concern on strategies for managing shallow, saline ground water. To assess alternatives to agricultural drains, a three-dimensional, finite-difference numerical model of the regional groundwater flow system was developed. This report documents the...
Authors
Kenneth Belitz, Steven P. Phillips, Jo Ann M. Gronberg
Calibration of a texture-based model of a ground-water flow system, western San Joaquin Valley, California Calibration of a texture-based model of a ground-water flow system, western San Joaquin Valley, California
The occurrence of selenium in agricultural drain water from the western San Joaquin Valley, California, has focused concern on the semiconfined ground-water flow system, which is underlain by the Corcoran Clay Member of the Tulare Formation. A two-step procedure is used to calibrate a preliminary model of the system for the purpose of determining the steady-state hydraulic properties...
Authors
Steven P. Phillips, Kenneth Belitz
Science and Products
Filter Total Items: 22
Water-level changes (1975-98) in the Antelope Valley, California Water-level changes (1975-98) in the Antelope Valley, California
Antelope Valley is in the western part of the Mojave Desert in southern California, about 50 mi northeast of Los Angeles. Between 1975 and 1998, water levels in the valley have changed in response to a shift in ground-water use from agricultural to urban, declining in some areas and rising in others. A study to document these changes was conducted by the U.S. Geological Survey in...
Authors
Carl S. Carlson, Steven P. Phillips
Land use and water use in the Antelope Valley, California Land use and water use in the Antelope Valley, California
Urban land use and water use in the Antelope Valley, California, have increased significantly since development of the valley began in the late 1800's.. Ground water has been a major source of water in this area because of limited local surface-water resources. Ground-water pumpage is reported to have increased from about 29,000 acre-feet in 1919 to about 400,000 acre-feet in the 1950's
Authors
William E. Templin, Steven P. Phillips, Daniel E. Cherry, Myrna L. DeBortoli, T.C. Haltom, Kelly R. McPherson, C.A. Mrozek
Numerical simulation of ground-water flow in the central part of the western San Joaquin Valley, California Numerical simulation of ground-water flow in the central part of the western San Joaquin Valley, California
The occurrence of selenium in agricultural drain water in the central part of the western San Joaquin Valley, California, has focused concern on strategies for managing shallow, saline ground water. To assess alternatives to agricultural drains, a three-dimensional, finite-difference numerical model of the regional groundwater flow system was developed. This report documents the...
Authors
Kenneth Belitz, Steven P. Phillips, Jo Ann M. Gronberg
Calibration of a texture-based model of a ground-water flow system, western San Joaquin Valley, California Calibration of a texture-based model of a ground-water flow system, western San Joaquin Valley, California
The occurrence of selenium in agricultural drain water from the western San Joaquin Valley, California, has focused concern on the semiconfined ground-water flow system, which is underlain by the Corcoran Clay Member of the Tulare Formation. A two-step procedure is used to calibrate a preliminary model of the system for the purpose of determining the steady-state hydraulic properties...
Authors
Steven P. Phillips, Kenneth Belitz