by U.S. Dept. of the Interior, U.S. Geological Survey, Books and Open-File Reports Section [distributor] in Sacramento, Calif, Denver, CO .
Written in English
|Other titles||Evaluation of a ground water flow and transport model of the upper Coachella Valley, California.|
|Statement||by Eric G. Reichard and J. Kevin Meadows ; prepared in cooperation with the California Regional Water Quality Control Board, Colorado River Basin Region.|
|Series||Water-resources investigations report -- 91-4142.|
|Contributions||Meadows, J. Kevin., Geological Survey (U.S.), California Regional Water Quality Control Board--Colorado River Basin Region.|
|The Physical Object|
|Pagination||vi, 101 p. :|
|Number of Pages||101|
Ground Water Monitoring & Remediation, v. 20, no. 4, p. Merritt, M.L., and Konikow, L.F., , Documentation of a computer program to simulate lake-aquifer interaction using the MODFLOW ground-water flow model and the MOC3D solute-transport model: U.S. Geological Survey Water-Resources Investigations Report , p. Evaluation of a ground-water flow and transport model of the upper Coachella Valley, California: U.S. Geological Survey Water-Resources Investigations Report , p. Reisner, M.P, , Cadillac desert-the American West and its disappearing water: New York, Viking Penguin, Inc., p. Groundwater Model Development and to the upper Coachella Valley, California, illustrate that calibration produces a nonunique solution and that validation, per se, is a futile objective. Case histories of model applications to the Dakota Aquifer, South Dakota, to bedded salts in New Mexico, and to the upper Coachella Valley, California, illustrate that calibration produces a.
2 Evaluation of the Hydrologic System and Selected Water-Management Alternatives in the Owens Valley, California Water-management practices as of were deﬁned and evaluted using the model. Simu-lation results indicate that increased ground-water pumpage since for enhancement and mitiga-tion projects within the Owens Valley has further. WSP / Tyley, S. J. / ANALOG MODEL STUDY OF THE GROUND WATER BASIN OF THE UPPER COACHELLA VALLEY, CALIFORNIA, , cl, 77 pages, 35 figs., 15 tables, $ 34 WSP / Benson, M. and Carter, R. / A NATIONAL STUDY OF THE STREAMFLOW DATA-COLLECTION PROGRAM, , pb, 11 figs., 5 tables, $ Abstract. With the expansion of irrigated agriculture throughout the world, much land now saline or alkaline must be reclaimed. Reported herein are the results of both flushing and leaching salts from a saline-alkali soil in the Coachella Valley of California's Colorado desert. The Torres Martinez Desert Cahuilla Indians of Southern California are the largest private landowner in and around the Salton Sea in the lower Coachella Valley. The tribal lands are situated on the northern border of the Salton Sea in the Coachella Valley of Southern California in .
Evaluation of a ground-water flow and transport model of the upper Coachella Valley, California / (Sacramento, Calif.: U.S. Dept. of the Interior, U.S. Geological Survey ; Denver, CO: Books and Open-File Reports Section [distributor], ), by Eric George Reichard, J. Kevin Meadows, California Regional Water Quality Control Board--Colorado. Modeling tools such as the Central Valley Hydrologic Model can be used in the evaluation of management strategies to mitigate adverse impacts due to subsidence while also optimizing water availability. This knowledge will be critical for successful implementation of recent legislation aimed toward sustainable groundwater use. California Department of Water Resources: Potential for using the upper Coachella Valley ground-water basin, California, for storage of artificially recharged water / (Menlo Park, Calif.: U.S. Geological Survey, ), also by Michael J. Mallory, Stephen J. Tyley, Lindsay A. Swain, and Geological Survey (U.S.) (page images at HathiTrust). WRI Recalibration of a ground-water flow model of the Mississippi River Valley alluvial aquifer in Southeastern Arkansas, , with simulations of hydraulic heads caused by projected ground-water withdrawals through , by G.P. Stanton and B.R. Clark.