Authors
Douglas A Stow, Allen Hope, David McGuire, David Verbyla, John Gamon, Fred Huemmrich, Stan Houston, Charles Racine, Matthew Sturm, Kenneth Tape, Larry Hinzman, Kenji Yoshikawa, Craig Tweedie, Brian Noyle, Cherie Silapaswan, David Douglas, Brad Griffith, Gensuo Jia, Howard Epstein, Donald Walker, Scott Daeschner, Aaron Petersen, Liming Zhou, Ranga Myneni
Publication date
2004/2/15
Journal
Remote sensing of environment
Volume
89
Issue
3
Pages
281-308
Publisher
Elsevier
Description
The objective of this paper is to review research conducted over the past decade on the application of multi-temporal remote sensing for monitoring changes of Arctic tundra lands. Emphasis is placed on results from the National Science Foundation Land–Air–Ice Interactions (LAII) program and on optical remote sensing techniques. Case studies demonstrate that ground-level sensors on stationary or moving track platforms and wide-swath imaging sensors on polar orbiting satellites are particularly useful for capturing optical remote sensing data at sufficient frequency to study tundra vegetation dynamics and changes for the cloud prone Arctic. Less frequent imaging with high spatial resolution instruments on aircraft and lower orbiting satellites enable more detailed analyses of land cover change and calibration/validation of coarser resolution observations. The strongest signals of ecosystem change detected thus …
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Scholar articles
DA Stow, A Hope, D McGuire, D Verbyla, J Gamon… - Remote sensing of environment, 2004