Publications
Filter Total Items: 391
Monitoring Channel Sand Storage in the Colorado River in Grand Canyon Monitoring Channel Sand Storage in the Colorado River in Grand Canyon
No abstract available.
Authors
Samuel Jansen, Julia B. Graf, Jonathan E. Marlow, Gregory G. Fisk
Water-level fluctuations, water temperatures, and tilts in sandbars -6.5R, 43.1L, and 172.3L, Grand Canyon, Arizona, 1990-93 Water-level fluctuations, water temperatures, and tilts in sandbars -6.5R, 43.1L, and 172.3L, Grand Canyon, Arizona, 1990-93
Rill erosion, slumping, and fissuring develop on seepage faces of many sandbars along the Colorado River in the Grand Canyon at low river stage. Three sandbars were instrumented with sensors for continual monitoring of stage, pore pressure, ground-water temperature, and tilt to determine the relation between ground-water flow and sandbar deformation. Data were collected from October 1990...
Authors
Michael C. Carpenter, Jason A. Crosswhite, R. L. Carruth
Measurements of aquifer-storage change and specific yield using gravity surveys Measurements of aquifer-storage change and specific yield using gravity surveys
Pinal Creek is an intermittent stream that drains a 200-square-mile alluvial basin in central Arizona. Large changes in water levels and aquifer storage occur in an alluvial aquifer near the stream in response to periodic recharge and ground-water withdrawals. Outflow components of the ground-water budget and hydraulic properties of the alluvium are well-defined by field measurements...
Authors
D. R. Pool, J.H. Eychaner
Chemistry and toxicity of urban sediments, Maricopa County, Arizona, data and summary statistics Chemistry and toxicity of urban sediments, Maricopa County, Arizona, data and summary statistics
No abstract available.
Authors
T.L. Ingersoll, J. T. Parker, K. D. Fossum
Sand-storage changes in the Colorado River downstream from the Paria and Little Colorado Rivers, June 1992 to February 1994 Sand-storage changes in the Colorado River downstream from the Paria and Little Colorado Rivers, June 1992 to February 1994
No abstract available.
Authors
J.B. Graf, J. E. Marlow, G. G. Fisk, S.M. Jansen
Measured and predicted velocity and longitudinal dispersion at steady and unsteady flow, Colorado River, Glen Canyon Dam to lake mead Measured and predicted velocity and longitudinal dispersion at steady and unsteady flow, Colorado River, Glen Canyon Dam to lake mead
The effect of unsteadiness or dam releases on velocity and longitudinal dispersion of flow was evaluated by injecting a fluorescent dye into the Colorado River below Glen Canyon Dam and sampling for dye concentration at selected sites downstream. In Glen Canyon, average flow velocity through the study reach increased directly with discharge, but dispersion was greatest at the lowest of...
Authors
J.B. Graf
Results of ground-water, surface-water, and water-chemistry monitoring, Black Mesa area, northeastern Arizona, 1994 Results of ground-water, surface-water, and water-chemistry monitoring, Black Mesa area, northeastern Arizona, 1994
The Black Mesa monitoring program is designed to document long-term effects of ground-water pumping from the N aquifer by industrial and municipal users. The N aquifer is the major source of water in the 5,400-square-mile Black Mesa area, and the ground water occurs under confined and unconfined conditions. Monitoring activities include continuous and periodic measurements of (1) ground...
Authors
G. R. Littin, S. A. Monroe
Accounting for Consumptive Use of Lower Colorado River Water in Arizona, California, Nevada, and Utah Accounting for Consumptive Use of Lower Colorado River Water in Arizona, California, Nevada, and Utah
In the Colorado River valley between the east end of Lake Mead and the international boundary with Mexico (see figure), the river is the principal source of water for agricultural, domestic, municipal, industrial, hydroelectric-power generation, and recreational purposes. Water is stored in surface reservoirs and in the river aquifer---permeable sediments and sedimentary rocks that fill...
Authors
Sandra J. Owen-Joyce, Richard P. Wilson
Method to identify wells that yield water that will be replaced by Colorado River water in Arizona, California, Nevada, and Utah Method to identify wells that yield water that will be replaced by Colorado River water in Arizona, California, Nevada, and Utah
Accounting for the use of Colorado River water is required by the U.S. Supreme Court decree, 1964, Arizona v. California. Water pumped from wells on the flood plain and from certain wells on alluvial slopes outside the flood plain is presumed to be river water and is accounted for as Colorado River water. A method was developed to identify wells outside the f1ood plain of the lower...
Authors
Richard P. Wilson, Sandra J. Owen-Joyce
Summary of ground-water conditions in Arizona, 1987-90 Summary of ground-water conditions in Arizona, 1987-90
Annual ground-water withdrawals in Arizona were 2.9, 3.3, 3.6, and 3.4 million acre-feet for calendar years 1987. 1988, 1989, and 1990. The average annual ground-water withdrawal for Arizona from 1980-89 was 3.7 million acre-feet, which was the lowest average annual withdrawal for any decade since the 1940' s. Since 1947, annual ground-water withdrawals in Arizona were at the lowest rate...
Authors
D.W. Anning, N.R. Duet