Sandra Owen-Joyce
Sandra Owen-Joyce is a Scientist Emeritus in the Arizona Water Science Center, Tucson Office.
Science and Products
Filter Total Items: 25
Accounting System for Water Use by Vegetation in the Lower Colorado River Valley
The Colorado River is the principal source of water in the valley of the Colorado River between Hoover Dam and the international boundary with Mexico (fig. 1). Agricultural, domestic, municipal, industrial, hydroelectric-power genera-tion, and recreation are the primary uses of river water in the valley. Most of the consumptive use of water from the river occurs downstream from Davis Dam, where wa
Authors
Sandra J. Owen-Joyce
Lower Colorado River Accounting System (LCRAS) computer program and documentation
No abstract available.
Authors
B. K. von Allworden, Sandra J. Owen-Joyce, John D. Sandoval, Lee H. Raymond
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, June 26-28, 1990
No abstract available.
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow and the effect of rising and sustained high river stage on the method of estimation in Cibola Valley, Arizona and California, 1983 and 1984
In Cibola Valley, Arizona, water is pumped from the Colorado River to irrigate crops and to maintain wildlife habitat. Unused water percolates to the water table and, as groundwater, moves downgradient into areas of phreatophytes, into a drainage ditch, out of the flood plain, and back to the river. In 1983 and 1984, groundwater return flow was negligible because in most of Cibola Valley the river
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, April 9, 1989
Field conditions were documented during the SPOT satellite overpass of the Maricopa Agricultural Center, Pinal County, Arizona, on April 9, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, June 16, 1989
Field conditions were documented during the SPOT satellite overpass of the Maricopa Agricultural Center, Pinal County, Arizona, on June 16, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, September 28, 1989
Field conditions were documented during the Landsat and SPOT satellite overpasses of the Maricopa Agricultural Center, Pinal County, Arizona, on September 28, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow using water budgets in Parker Valley, Arizona and California, 1981-84
Annual water budgets were used to estimate consumptive use by vegetation and groundwater return flow in Parker Valley, Arizona and California. Consumptive use by vegetation was estimated to be 482,800 acre-ft in 1981, 432,000 acre-ft in 1982, 413,500 acre-ft in 1983, and 420,900 acre-ft in 1984 on the Arizona side of the Colorado River, and 45,400 acre-ft in 1984 on the California side of the rive
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Maricopa County, Arizona, June 13, 1988
Field conditions were documented during the Landsat satellite overpass of the Maricopa Agricultural Center, Maricopa County, Arizona, on June 13, 1988. Crop types were mapped and photographed for each demonstration farm field. Field conditions described include irrigation, cultivation, and orientation of rows. Field and photographic descriptions are presented in tabular form. (USGS)
Authors
Sandra J. Owen-Joyce
Comparison of estimates of evapotranspiration and consumptive use in Palo Verde Valley, California
Estimates of evapotranspiration and consumptive use by vegetation in Palo Verde Valley, California, were compared for calendar years 1981 to 1984. Vegetation types were classified, and the areas covered by each type were computed from Landsat satellite digital-image analysis. Evapotranspiration was calculated by multiplying the area of each vegetation type by a corresponding water use rate adjuste
Authors
Lee H. Raymond, Sandra J. Owen-Joyce
Estimates of average annual tributary inflow to the lower Colorado River, Hoover Dam to Mexico
Estimates of tributary inflow by basin or area and by surface water or groundwater are presented in this report and itemized by subreaches in tabular form. Total estimated average annual tributary inflow to the Colorado River between Hoover Dam and Mexico, excluding the measured tributaries, is 96,000 acre-ft or about 1% of the 7.5 million acre-ft/yr of Colorado River water apportioned to the Stat
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow using water budgets in Palo Verde Valley, California
Palo Verde Valley, California, is an agricultural area in the flood plain of the Colorado River where irrigation water is diverted from the river and groundwater is discharged to a network of drainage ditches and (or) the river. Consumptive use by vegetation and groundwater return flow were calculated using water budgets. Consumptive use by vegetation was 484,000 acre-ft in 1981, 453,600 acre-ft i
Authors
Sandra J. Owen-Joyce, Steven L. Kimsey
Science and Products
Filter Total Items: 25
Accounting System for Water Use by Vegetation in the Lower Colorado River Valley
The Colorado River is the principal source of water in the valley of the Colorado River between Hoover Dam and the international boundary with Mexico (fig. 1). Agricultural, domestic, municipal, industrial, hydroelectric-power genera-tion, and recreation are the primary uses of river water in the valley. Most of the consumptive use of water from the river occurs downstream from Davis Dam, where wa
Authors
Sandra J. Owen-Joyce
Lower Colorado River Accounting System (LCRAS) computer program and documentation
No abstract available.
Authors
B. K. von Allworden, Sandra J. Owen-Joyce, John D. Sandoval, Lee H. Raymond
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, June 26-28, 1990
No abstract available.
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow and the effect of rising and sustained high river stage on the method of estimation in Cibola Valley, Arizona and California, 1983 and 1984
In Cibola Valley, Arizona, water is pumped from the Colorado River to irrigate crops and to maintain wildlife habitat. Unused water percolates to the water table and, as groundwater, moves downgradient into areas of phreatophytes, into a drainage ditch, out of the flood plain, and back to the river. In 1983 and 1984, groundwater return flow was negligible because in most of Cibola Valley the river
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, April 9, 1989
Field conditions were documented during the SPOT satellite overpass of the Maricopa Agricultural Center, Pinal County, Arizona, on April 9, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, June 16, 1989
Field conditions were documented during the SPOT satellite overpass of the Maricopa Agricultural Center, Pinal County, Arizona, on June 16, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Pinal County, Arizona, September 28, 1989
Field conditions were documented during the Landsat and SPOT satellite overpasses of the Maricopa Agricultural Center, Pinal County, Arizona, on September 28, 1989. Crop types were mapped and photographed for each demonstration farm field, and irrigation, cultivation, and orientation of rows are described. Field and photographic descriptions are presented in tabular and graphic form. (USGS)
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow using water budgets in Parker Valley, Arizona and California, 1981-84
Annual water budgets were used to estimate consumptive use by vegetation and groundwater return flow in Parker Valley, Arizona and California. Consumptive use by vegetation was estimated to be 482,800 acre-ft in 1981, 432,000 acre-ft in 1982, 413,500 acre-ft in 1983, and 420,900 acre-ft in 1984 on the Arizona side of the Colorado River, and 45,400 acre-ft in 1984 on the California side of the rive
Authors
Sandra J. Owen-Joyce
Field conditions at the Maricopa Agricultural Center, Maricopa County, Arizona, June 13, 1988
Field conditions were documented during the Landsat satellite overpass of the Maricopa Agricultural Center, Maricopa County, Arizona, on June 13, 1988. Crop types were mapped and photographed for each demonstration farm field. Field conditions described include irrigation, cultivation, and orientation of rows. Field and photographic descriptions are presented in tabular form. (USGS)
Authors
Sandra J. Owen-Joyce
Comparison of estimates of evapotranspiration and consumptive use in Palo Verde Valley, California
Estimates of evapotranspiration and consumptive use by vegetation in Palo Verde Valley, California, were compared for calendar years 1981 to 1984. Vegetation types were classified, and the areas covered by each type were computed from Landsat satellite digital-image analysis. Evapotranspiration was calculated by multiplying the area of each vegetation type by a corresponding water use rate adjuste
Authors
Lee H. Raymond, Sandra J. Owen-Joyce
Estimates of average annual tributary inflow to the lower Colorado River, Hoover Dam to Mexico
Estimates of tributary inflow by basin or area and by surface water or groundwater are presented in this report and itemized by subreaches in tabular form. Total estimated average annual tributary inflow to the Colorado River between Hoover Dam and Mexico, excluding the measured tributaries, is 96,000 acre-ft or about 1% of the 7.5 million acre-ft/yr of Colorado River water apportioned to the Stat
Authors
Sandra J. Owen-Joyce
Estimates of consumptive use and ground-water return flow using water budgets in Palo Verde Valley, California
Palo Verde Valley, California, is an agricultural area in the flood plain of the Colorado River where irrigation water is diverted from the river and groundwater is discharged to a network of drainage ditches and (or) the river. Consumptive use by vegetation and groundwater return flow were calculated using water budgets. Consumptive use by vegetation was 484,000 acre-ft in 1981, 453,600 acre-ft i
Authors
Sandra J. Owen-Joyce, Steven L. Kimsey