Abstract

Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) data were acquired during three consecutive growing seasons (26 September 1989, 22 March 1990, and 7 August 1990) over an area of the High Plains east of Greeley, Colorado (40 deg 20 min N and 104 deg 16 min W). A repeat visit to assess vegetation at its peak growth was flown on 6 June 1993. This region contains extensive eolian deposits in the form of stabilized dune complexes (small scale parabolic dunes superimposed on large scale longitudinal and parabolic dunes). Due to the dunes' large scale (2-10 km) and low relief (1-5 m), the scaling and morphological relationships that contribute to the evolution of this landscape are nearly impossible to understand without the use of remote sensing. Additionally, this area and regions similarly situated could be the first to experience the effects caused by global climate change. During the past 10,000 years there were at least four periods of extensive sand activity due to climate change, followed by periods of landscape stability, as shown in the stratigraphic record of this area.

Keywords

Aeolian processesAridVegetation (pathology)Physical geographySand dune stabilizationGeologyScale (ratio)Remote sensingClimate changeGeographyClimatologyEnvironmental scienceGeomorphologyPaleontologyCartography

Affiliated Institutions

Related Publications

Publication Info

Year
1993
Type
article
Citations
64
Access
Closed

External Links

Citation Metrics

64
OpenAlex

Cite This

Roberta H. Yuhas, Joseph W. Boardman, Alexander Goetz (1993). Determination of semi-arid landscape endmembers and seasonal trends using convex geometry spectral unmixing techniques. NASA Technical Reports Server (NASA) .