Two-dimensional and three-dimensional digital flow models of the Salinas Valley ground-water basin, California
Glenn W. Kapple, John R. Freckleton, Timothy J. Durbin | November 16th, 1978
The Salinas Valley is a topographic and ground-water basin in central coastal California. The ground-water basin extends from Monterey Bay southeastward along the Salinas River to San Arda, a distance of 70 miles, and has a maximum thickness of 2,000 feet. Annual recharge to the ground-water basin, which is derived mostly from the Salinas River, is about 290,000 acrefeet. Annual discharge, which is mostly from pumpage but also includes the consumptive use of ground water by riparian vegetation along the Salinas River, is about 507,000 acre-feet. About 45 percent of the pumpage, or 217,000 acre-feet of water annually, returns to the ground-water system.
A group of interacting hydrologic models was developed for the Salinas Valley. These models include the small-stream model, river model, twodimensional ground-water model, and three-dimensional ground-water model. The small-stream model simulates ground-water recharge from small streams that are tributary to the Salinas River. The river model simulates groundwater recharge from and surface-water discharge in the Salinas River. The two-dimensional and three-dimensional ground-water models simulate hydraulic head in the ground-water basin.
The ground-water models were calibrated by comparing water level computed by the models to the corresponding measured water level for both steady-state and transient-state simulations. For the steady-state simulation, which was used to calibrate transmissivity for the two-dimensional model and hydraulic conductivity for the three-dimensional model, the median deviation of the model-generated water level from measured water level was 6 and 5 feet for the two-dimensional and three-dimensional models, respectively. For the transient-state simulation, which was used to calibrate storage coefficient for the two-dimensional model and specific storage for the three-dimensional model, the median deviation of the model-generated water level (at the end of a 3-year calibration period) from measured water level was 6 feet for both models.
Keywords
coastal aquifers, Groundwater Exchange, groundwater recharge, groundwater-surface water interaction, seawater intrusion