PS 31-99 - Soil moisture sequestration in pinyon, juniper woodland, induced by soil water repellency

Tuesday, August 4, 2009
Exhibit Hall NE & SE, Albuquerque Convention Center
David A. Robinson, Food Production, University of West Indies, St Augustine, Trinidad and Tobago, Inma Lebron, Dept of Food Production, University of West Indies, St Augustine, Trinidad and Tobago, Ronald J. Ryel, Wildland Resources, Utah State University, Logan, UT and Scott B. Jones, Plants, Soils, & Climate, Utah State University, Logan, UT
Background/Question/Methods

Encroachment of pinyon-juniper woodland into rangeland ecosystems is prevalent across the western US. Mechanisms associated with this successful encroachment are speculative, but likely in part, involve effective use of water resources.  We explored the ecohydrological characteristics of pinyon-juniper woodland on the Colorado Plateau in Utah, especially the role of soil water repellency found to occur under the trees. Using soil water content measurements along a transect, an infiltration experiment and 2-D soil moisture simulation we were able to demonstrate the impact of soil water repellency on soil moisture measured in this ecosystem.

Results/Conclusions

We have discovered that a high level of natural soil-water-repellency / hydrophobicity exists under the canopies of both pinyon and juniper species. We found, following summer precipitation events that soil-water-repellency under trees concentrated soil water below the surface through finger-flow / bypass-infiltration and contrasted with piston flow, and much more uniform soil wetting in intercanopy locations. We propose that the trees ‘engineer’ their environment, creating water repellency as a way of providing an ecohydrological advantage, and reducing potential water uptake by shallow-rooted herbaceous species.

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