Executive Summary Journal Article

Evaluation of Rio Grande Management Alternatives Using a Surface-Water/Ground-Water Model

URL: https://webapps.usgs.gov/mrgescp/documents/Wilcox%20et%20al_2007_Evaluation%20of%20Rio%20Grande%20Management%20Alternatives%20using%20a%20Surface-WaterGround-Water%20Model.pdf

Date: 2007/12/01

Author(s): Wilcox L.J., Bowman R.S., Shafike N.G.

Publication: Journal of the American Water Resources Association, v. 43(6), p. 1595-1603. DOI :https://doi.org/10.1111/j.1752-1688.2007.00131.x

Abstract:

Previous investigations observed significant seepage losses from the Rio Grande to the shallow aquifer between Socorro and San Antonio, New Mexico. High-resolution telescopic modeling was used along a 10-km reach of the Rio Grande and associated drains and canals to evaluate several management alternatives aimed at improving river conveyance efficiency. Observed data consisted of ground-water and surface-water elevations, seepage rates along the Rio Grande and associated canals and drains, and borehole geology. Model calibration was achieved by adjusting hydraulic conductivity and specific storage until the output matched observed data. Sensitivity analyses indicated that the system was responsive to changes in hydrogeologic properties, especially when such alterations increased vertical connectivity between layers. The calibrated model predicted that removal of the low flow conveyance channel, a major channel draining the valley, would not only decrease river seepage by 67%, but also decrease total flow through the reach by 75%. The decreased flow through the reach would result in increased water logging and an average increase in ground-water elevations of 1.21 meter. Simulations of the system with reduced riparian evapotranspiration rates or a relocated river channel also predicted decreased river seepage, but to a much lesser degree.