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Long-Term Hydrologic Responses To Shrub Removal In A SW Texas Rangeland: Using Soil Chloride To Estimate Deep DrainageBarre, David Anthony 2009 August 1900 (has links)
The Carrizo-Wilcox aquifer is a valuable groundwater resource, situated in a semi-arid
landscape of Southwest Texas, where over-use by dependent farming practices has
lowered aquifer levels. In semi-arid regions, rates of groundwater recharge are
predominantly low due to high potential evapotranspiration rates; however, least
understood is the role that vegetation plays in soil-plant-water dynamics. Vegetation
management potentially plays a major role in countering the loss to recharge because
evapotranspiration (ET) varies with vegetation type and cover. The conversion from
shrubland to grassland likely reduces rooting depths and total plant cover. Subsequently,
deep drainage (percolation below the root zone) will likely increase and lead to
groundwater recharge, at least temporarily. The primary aims of the study were to
identify those biotic and abiotic factors facilitating deep drainage and to examine
differences in recharge for the years following clearing of natural shrub vegetation. Soil
chloride was examined to estimate long-term recharge rates, since its concentration in
the soil is influenced by the movement of water. Short-term soil moisture trends were
also monitored for any water movement deep in the soil profile in response to individual rain events. Rooting depths decreased following removal of vegetation; yet root biomass
unexpectedly increased due to successful grass establishment during the first five years
after treatment. Soil properties did not vary between treatments, indicating that the
majority of chloride differences seen were a consequence of vegetation change. Peak
and total soil chloride concentrations were expected to decrease and occur deeper in the
soil profile 15-30 years following the clearing of woody vegetation. Total chloride
decreased by up to 65% after 30 years and resulted in an estimated 14.9 mm/yr more
recharge compared to adjacent untreated controls. Evidence in this study suggest that
much of this chloride is leached during the first five years following treatment and that
more leaching occurs in especially wet periods. During the wet 2007 growing season,
soil moisture below the root zone increased by up to 17% after vegetation clearing. The
results of this study indicate that hydrologic changes following brush removal were
evident in this system and are likely to positively influence groundwater recharge in the
long-term.
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