Hydrologic processes in deep vadose zones in interdrainage arid environments

Water Science and Application
By:  and 
Edited by: James F. HoganFred M. Phillips, and Bridget R. Scanlon

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Abstract

A unifying theory for the hydrology of desert vadose zones is particularly timely considering the rising population and water stresses in arid and semiarid regions. Conventional models cannot reconcile the apparent discrepancy between upward flow indicated by hydraulic gradient data and downward flow suggested by environmental tracer data in deep vadose zone profiles. A conceptual model described here explains both hydraulic and tracer data remarkably well by incorporating the hydrologic role of desert plants that encroached former juniper woodland 10 to 15 thousand years ago in the southwestern United States. Vapor transport also plays an important role in redistributing moisture through deep soils, particularly in coarse-grained sediments. Application of the conceptual model to several interdrainage arid settings reproduces measured matric potentials and chloride accumulation by simulating the transition from downward flow to upward flow just below the root zone initiated by climate and vegetation change. Model results indicate a slow hydraulic drying response in deep vadose zones that enables matric potential profiles to be used to distinguish whether precipitation episodically percolated below the root zone or was completely removed via evapotranspiration during the majority of the Holocene. Recharge declined dramatically during the Holocene in interdrainage basin floor settings of arid and semiarid basins. Current flux estimates across the water table in these environmental settings, are on the order of 0.01 to 0.1 mm yr-1 and may be recharge (downward) or discharge (upward) depending on vadose zone characteristics, such as soil texture, geothermal gradient, and water table depth. In summary, diffuse recharge through the basin floor probably contributes only minimally to the total recharge in arid and semiarid basins.

Publication type Book chapter
Publication Subtype Book Chapter
Title Hydrologic processes in deep vadose zones in interdrainage arid environments
Series title Water Science and Application
Subseries 9
ISBN 9780875903583
DOI 10.1029/009WSA02
Year Published 2004
Language English
Publisher Americal Geophysical Union
Contributing office(s) Nevada Water Science Center
Description 14 p.
Larger Work Type Book
Larger Work Subtype Monograph
Larger Work Title Groundwater recharge in a desert environment: The southwestern United States (Water Science and Application, no. 9)
First page 15
Last page 28
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