Record Display for the EPA National Library Catalog

RECORD NUMBER: 8 OF 9

OLS Field Name OLS Field Data
Main Title Remote Sensing and Geographic Information Systems for Decision Analysis in Public Resource Administration: A Case Study of 25 Years of Landscape Change in a South-Western Watershed.
Author Kepner, W. G. ; Edmonds, C. M. ; Watts, C. J. ;
CORP Author Environmental Protection Agency, Las Vegas, NV. National Exposure Research Lab. ;Instituto del Medio Ambiente y el Desarrollo Sustentable del Estado De Sonora Reyes and Aquacalientes Esq., Col San Benito Hermosillo, Sonora, Mexico
Publisher Jun 2002
Year Published 2002
Report Number EPA/600/R-02/039 ;NERL-LV-ESD-02-061;
Stock Number PB2002-107522
Additional Subjects Remote sensing ; Geographic information systems ; Watersheds ; Land usage planning ; Decision making ; Land usage ; Land management ; Land use ; Natural resources management ;
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB2002-107522 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. 10/23/2002
Collation CD-ROM
Abstract
Alternative futures analysis is a scenario-based approach to regional land planning that attempts to synthesize existing scientific information in a format useful to community decision-makers. Typically, this approach attempts to investigate the impacts of several alternative sets of choices preferred by representative stakeholder groups relative to selected environmental or economical endpoints. Potential impacts from each of the scenarios are compared to current conditions of the region in terms of a set of processes that are modeled within a geographic information system. Future conditions are generally examined from the perspective of a recent baseline condition (versus empirically determined using a series of retrospective measurements). During the past two decades, important advances in the integration of remote imagery, computer processing, and spatial analysis technologies have been linked to the study of distribution patterns of communities and ecosystems and the ecological processes that affect these patterns. Because of the 25+ year availability of commercial satellite imagery, it is possible to examine environmental change and establish models which can narrow the actual choice of possible and probable change scenarios. This research (1) examines the potential to establish reference condition and measure change over large geographic areas; (2) determine trends in environmental condition; and (3) model and predict future landscape scenarios using advanced space-based technologies. Specifically, landscape pattern measurements were developed from satellite remote sensing, spatial statistics, and geographic information systems technology for a semi-arid watershed in southeast Arizona and northeast Sonora, Mexico and evaluated for their use in a decision-making framework.