Application of ERTS images and image processing to regional geologic problems and geologic mapping in northern Arizona
Links
- Document: Report (123 MB pdf)
- Download citation as: RIS | Dublin Core
Abstract
The purpose of this study was to apply the techniques of computer image processing to ERTS images as an aid to the solution of some regional geologic problems of significant interest.
ERTS-1 images were applied to studies in the Shivwits Plateau, Coconino Plateau, and north-central Arizona regions. Unprocessed ERTS images revealed a wealth of new structural information and enabled a broad regional study to be made of the tectonic history of the southwestern Colorado Plateau.
Spectral information from ERTS-1 was shown to be compatible with ground spectral reflectance measurements made with a portable field instrument developed during this investigation, provided that allowance was made for atmospheric effects.
Computer image processing yielded lithologic boundary information within the Coconino Plateau region not obtainable from unprocessed images. Various enhancement techniques were compared in the three areas of study, and some simple rules were developed to guide the processing of images in unknown areas.
A new hypothesis was developed for the history of the Colorado River. An ancestral and relatively old Upper Colorado Drainage followed approximately its present course as far as the western side of the Kaibab Uplift, where it diverged from the present course by following a strike valley trending north-northwest. This drainage was captured relatively recently by a much younger Lower Colorado Drainage, which developed by headward erosion after the opening of the Gulf of California.
A byproduct of the regional studies in each of the three areas was the identification of areas favorable for the localization of shallow and deep ground waters. On the Shivwits Plateau water trapped in the axis of the old strike valley underlying the Shivwits lavas is a potential source. On the Coconino Plateau sandstone lenses, underlain by clays, within the otherwise permeable Kaibab Limestone are potential perched aquifers. These can be identified on computer-enhanced images. Lineaments detected first on ERTS-1 frames and later verified on aerial photographs were used south of Flagstaff, Arizona, to identify maximum fracturing along the Oak Creek fault in the Woody Mountain well field; a site for a new deep well has been selected and is being drilled by the city of Flagstaff.
Study Area
Publication type | Report |
---|---|
Publication Subtype | Organization Series |
Title | Application of ERTS images and image processing to regional geologic problems and geologic mapping in northern Arizona |
Series title | Technical Report |
Series number | 32-1597 |
Year Published | 1975 |
Language | English |
Publisher | Jet Propulsion Laboratory |
Description | xiv, 188 p. |
Country | United States |
State | Arizona |
Other Geospatial | Bright Angel fault system, Coconino Plateau, Mesa Butte fault system, Shivwits Plateau, Verde Valley |
Google Analytic Metrics | Metrics page |