Correlation between Riparian Buffers and Water Quality in North Carolina Watersheds
Abstract
Stream water quality is often impacted by changes in land use such as deforestation.
Since streams are usually the major drinking water sources for millions of people,
Water Treatment Plants are the most common water resource management option for treating
degraded stream water for drinking water purposes. However because treatment plants
are capital intensive, land use conservation as a water resource management option
is now widely being adopted. The ability of forests to acts as natural water filters
could drive down water treatment costs and offer a cost-effective way to provide clean
drinking water. The purpose of this study is therefore to test the hypothesis that
an increase of forest cover in watersheds and riparian buffers leads to water quality
improvement. Land use metrics were generated from geospatial analysis using ArcGIS.
Intake points were located for 31 WTPs across North Carolina, and their corresponding
watershed boundaries were delineated. The 2006 National Land Cover and Land Use dataset
was used to determine percent of forest cover, impervious cover and agricultural cover
at three different spatial scales; watershed, 300ft riparian buffer and 100ft riparian
buffer. In addition, water quality data of two water quality parameters, Turbidity
and Total Organic Content (TOC) were used. The water quality data were reported as
monthly averages between 2009 and 2012 for Turbidity and between 2009 and 2012 for
TOC. Simple and multiple regressions were then conducted between the land use categories
and water quality data. The results of the regression analyses overall indicated that
percent of forest cover in all three spatial scales strongly affected mean TOC while
agricultural land cover within the 100ft riparian buffer strongly affected mean Turbidity.
Impervious cover did not seem to have strong effects on water quality. Therefore it
is recommended that the efforts should be directed at minimizing agricultural land
cover within riparian buffers. Protection of forest cover to reduce TOC concentration
in streams should also be prioritized. Across the three different spatial scales,
100ft riparian buffers should continue to be protected as well. These measures will
help towards maintaining the quality of drinking water sources.
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https://hdl.handle.net/10161/6595Citation
Fang, Yao; & Hashmi, Fatima (2013). Correlation between Riparian Buffers and Water Quality in North Carolina Watersheds.
Master's project, Duke University. Retrieved from https://hdl.handle.net/10161/6595.Collections
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