Add to ORKGRemote sensing of sand dunes helps in the understanding of aeolian process and provides important information about the regional geologic history, environmental change, and desertification. Remotely sensed data combined with field studies are valuable in studying dune morphology, regional aeolian dynamics, and aeolian depositional history. In particular, active and inactive sands of the Kelso Dunes have been studied using landsat TM and AIRSAR. In this report, we describe the use of AVIRIS data to study the Kelso dunes and to compare the AVIRIS information with that from TM and AIRSAR
The Muleshoe Dunes, an east-west trending dunefield on the border separating Texas and New Mexico, c...
Dune fields of Quaternary age occupy large areas of the world\u27s arid and semiarid regions. Despit...
Field studies and analysis of LANDSAT Thematic Mapper data in the Gran Desierto, Mexico may shed lig...
Mineral identification and mapping of alluvial material using thermal infrared (TIR) remote sensing ...
Remote sensing is a tool that, in the context of aeolian studies, offers a synoptic view of a dune f...
For more than four decades remote sensing images have been used to document and understand the evolu...
The Stovepipe Wells Dune Field provides a unique opportunity to observe several dune forms in one sc...
Sand dunes are one of the most abundant aeolian landforms and play an important role in understandin...
Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) data were acquired during three consecutive ...
Approximately 100,000 sq. km of the High Plains of the central United States are covered by sand dun...
Combining quantitative geophysical information extracted from the optical and microwave wavelengths ...
Most remote sensing studies in deserts focus solely on vegetation monitoring to assess the extent of...
The Kelso Dune field in southern California is intriguing because although it is of limited areal ex...
In July 1990 AVIRIS and AIRSAR data were collected over the Manix Basin Area of the Mojave Desert to...
Results of analysis of spectral variation of sand dunes in El Ghorabi, Bahariya, Egypt; Tombouctou/A...
The Muleshoe Dunes, an east-west trending dunefield on the border separating Texas and New Mexico, c...
Dune fields of Quaternary age occupy large areas of the world\u27s arid and semiarid regions. Despit...
Field studies and analysis of LANDSAT Thematic Mapper data in the Gran Desierto, Mexico may shed lig...
Mineral identification and mapping of alluvial material using thermal infrared (TIR) remote sensing ...
Remote sensing is a tool that, in the context of aeolian studies, offers a synoptic view of a dune f...
For more than four decades remote sensing images have been used to document and understand the evolu...
The Stovepipe Wells Dune Field provides a unique opportunity to observe several dune forms in one sc...
Sand dunes are one of the most abundant aeolian landforms and play an important role in understandin...
Airborne Visible/Infrared Imaging Spectrometer (AVIRIS) data were acquired during three consecutive ...
Approximately 100,000 sq. km of the High Plains of the central United States are covered by sand dun...
Combining quantitative geophysical information extracted from the optical and microwave wavelengths ...
Most remote sensing studies in deserts focus solely on vegetation monitoring to assess the extent of...
The Kelso Dune field in southern California is intriguing because although it is of limited areal ex...
In July 1990 AVIRIS and AIRSAR data were collected over the Manix Basin Area of the Mojave Desert to...
Results of analysis of spectral variation of sand dunes in El Ghorabi, Bahariya, Egypt; Tombouctou/A...
The Muleshoe Dunes, an east-west trending dunefield on the border separating Texas and New Mexico, c...
Dune fields of Quaternary age occupy large areas of the world\u27s arid and semiarid regions. Despit...
Field studies and analysis of LANDSAT Thematic Mapper data in the Gran Desierto, Mexico may shed lig...