Return to search

Characterizing the Impact of Land Use and Land Cover Change on Freshwater Inflows

Freshwater inflows are a crucial component for maintaining estuarine health,
function and productivity. Streamflows, the primary source of freshwater inflows, have
been modified and altered from their natural flow by population growth and
anthropogenic impacts on the contributing watersheds. The Guadalupe Estuary is a
primary habitat for many endangered species. The Guadalupe River Watershed, which
supplies 70% of freshwater inflows, experiences rapid urbanization and agricultural
development. This study proposed to characterize the impact of land use/cover change in
the Guadalupe River Watershed on freshwater inflows to the Guadalupe Estuary.
Pre-whitening, Mann-Kendall and bootstrap techniques were used to test for
significant trends on streamflow and precipitation. Analyses suggested more trends in
annual and seasonal minimum and mean streamflow than would be expected to occur by
chance in the periods of 1930-2005 and 1950-2005. No significant trends were found in
the period of 1970-2005. Significant trends were more prominent in the upper watershed
and decreased as analysis moved downstream in the period of 1950-2005. Trend tests on precipitation data in the period of 1950-2005 revealed more significant trends than
would be expected by chance in mean annual and winter precipitation.
Analyses of Landsat images of the watershed using an unsupervised
classification method showed an increase in forest, urban and irrigated land by 13, 42
and 7%, respectively, from 1987 to 2002. Urbanized areas were mostly found in the
middle part of watershed surrounding the I-35 corridor. More than 80% of irrigated
lands are distributed over the San Marcos and Middle Guadalupe River Watersheds.
Soil and Water Assessment Tool (SWAT) model was applied for the Guadalupe
River Watershed. Calibration and validation using data recorded at USGS 08176500
indicated the model performed well to simulate streamflow. The coefficient of Nash-
Sutcliffe, determination and percent bias were 0.83, 0.96 and 3.81, respectively, for
calibration and 0.68, 0.75 and 29.38 for validation period. SWAT predicted a 2%
decrease in annual freshwater inflow rates from the effect of land use/cover change from
1987 to 2002. Reservoirs increased freshwater inflows during low flow months and
decreased the inflows during high flow months. Precipitation variability changed
characteristics of monthly freshwater inflows.

Identiferoai:union.ndltd.org:tamu.edu/oai:repository.tamu.edu:1969.1/ETD-TAMU-2880
Date15 May 2009
CreatorsFerijal, Teuku
ContributorsSmith, Patricia K.
Source SetsTexas A and M University
Languageen_US
Detected LanguageEnglish
TypeBook, Thesis, Electronic Thesis, text
Formatelectronic, application/pdf, born digital

Page generated in 0.0022 seconds