The Effect of modeled recharge distribution on simulated groundwater availability and capture

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Simulating groundwater flow in basin-fill aquifers of the semiarid southwestern United States commonly requires decisions about how to distribute aquifer recharge. Precipitation can recharge basin-fill aquifers by direct infiltration and transport through faults and fractures in the high-elevation areas, by flowing overland through high-elevation areas to infiltrate at basin-fill margins along mountain fronts, by flowing overland to infiltrate along ephemeral channels that often traverse basins in the area, or by some combination of these processes. The importance of accurately simulating recharge distributions is a current topic of discussion among hydrologists and water managers in the region, but no comparative study has been performed to analyze the effects of different recharge distributions on groundwater simulations. This study investigates the importance of the distribution of aquifer recharge in simulating regional groundwater flow in basin-fill aquifers by calibrating a groundwater-flow model to four different recharge distributions, all with the same total amount of recharge. Similarities are seen in results from steady-state models for optimized hydraulic conductivity values, fit of simulated to observed hydraulic heads, and composite scaled sensitivities of conductivity parameter zones. Transient simulations with hypothetical storage properties and pumping rates produce similar capture rates and storage change results, but differences are noted in the rate of drawdown at some well locations owing to the differences in optimized hydraulic conductivity. Depending on whether the purpose of the groundwater model is to simulate changes in groundwater levels or changes in storage and capture, the distribution of aquifer recharge may or may not be of primary importance.

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Additional publication details

Publication type Article
Publication Subtype Journal Article
Title The Effect of modeled recharge distribution on simulated groundwater availability and capture
Series title Groundwater
DOI 10.1111/gwat.12210
Volume 53
Issue 3
Year Published 2015
Language English
Publisher Wiley
Contributing office(s) Arizona Water Science Center
Description 11 p.
First page 378
Last page 388
Country United States
State Arizona
Other Geospatial Detrital Valley, Hualapai Valley, Sacramento Valley
Online Only (Y/N) N
Additional Online Files (Y/N) N
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