ABSTRACT: Use of Landsat Thematic Mapper 5 in the Environmental Monitoring of a Gulf Coast Delta-Estuarine System
ISPHORDING, WAYNE C. and RICHARD L.C. ENRIGHT
Landsat is one of a number of satellites launched by various nations in order to provide remote sensing imagery to the public sector that can be used for a multitude of practical applications. The latest U.S. satellite (Landsat V) was placed in a repetitive, circular, sun-syncronous near polar orbit on March 1, 1984 and furnishes data from seven bands in the 0.5 to 12.5 micrometer region. While not possessing the spatial resolution ability of a number of systems launched by foreign governments, Landsat V is the only system that can provide high quality, color data that is invaluable for many geological and environmental investigations.
Using the USGS-developed Global Land Information System (GLIS), the Internet can be used to select those images that are most ideal for a particular investigation. Images acquired prior to September, 1985 are available from the USGS (EROS Data Center) while those since that date are provided by a private firm (EOSAT).
A series of such images have
been used as part of a major study directed toward assessing sedimentological
and environmental processes taking place in Mobile Bay, Alabama and the
adjacent Mobile River Delta. The former is the 2nd largest estuarine complex
in the United States (largest in the entire Gulf of Mexico) and one that
has been heavily environmentally impacted; the latter is the largest inland
delta system in North America and the largest wetlands area in the State
of Alabama. Landsat V imagery has been invaluable in identifying sources
of thermal pollution
, classifying different wetland environments, developing
sediment budget maps, assessing sediment sources and distribution patterns,
and in identifying changes in shorelines and river flow patterns that have
taken place in historical times. The wealth of information that can be
gleaned from such photographs gives true meaning to the statement "a picture
is worth a thousand words."
AAPG Search and Discovery Article #90941©1997 GCAGS 47th Annual Meeting, New Orleans, Louisiana