Abstract
Urban expansion and associated land use change have complex effects on ecosystems. Some effects have not been felt or perceived as being severe as of now, but they might become detrimental in the future if the trend continues. Predictive modeling allows us to anticipate if this is the case and to take action if necessary. This study combines the products of simulated urban growth and the U.S. Geological Survey's gap analysis to assess potential ecological impacts of future urban expansion on vegetation cover, habitats, and biodiversity. Five growth scenarios were used to implicitly simulate urban expansion from 2000 through 2030 at different growth rates, urbanization extents, and sprawl areas. As found in the Beaufort area in South Carolina, substantial losses of vegetation cover and habitat areas for four selected species, particularly local common species, are forecast even under the most conservative scenario. Although urban residential areas have a greater number of species than the average in all land areas, predicted continuous shrinking of the habitats of enlisted endangered species is worthy of concern. Although the approach and methods used here are applicable in other regions as a diagnostic tool for impact assessment, maps and tables generated are useful for visualizing spatiotemporal changes and for making decisions in land use planning and coastal ecosystem management.
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Notes on contributors
Kang Shou Lu
KANG SHOU LU is Associate Professor in the Department of Geography and Environmental Planning, Towson University, 8000 York Road, Towson, MD 21252. E-mail: [email protected]. His research interests include urban growth simulation, land use modeling, and artificial neural network.
Jeffery S. Allen
JEFFERY S. ALLEN is Director of the Strom Thurmond Institute, Clemson University, Clemson, SC 29634. E-mail: [email protected]. His research interests include water and energy management, policy, and economics.
Guoxiang Liu
GUOXIANG LIU is a Remote Sensing Scientist at the Strom Thurmond Institute, Clemson University, Clemson, SC 29634. E-mail: [email protected]. His research interests include remote sensing, hyperspectral analysis, land use change.
Xiaofeng Wang
XIAOFENG WANG is on the faculty of the College of Tourism and Environment Sciences, Shaanxi Normal University, Xi'an, Shaanxi 710062, China. E-mail: [email protected]. His research interests include remote sensing, climatology, and geostatistics.