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- Title
Validation of Permafrost Active Layer Estimates from Airborne SAR Observations.
- Authors
Parsekian, Andrew D.; Chen, Richard H.; Michaelides, Roger J.; Sullivan, Taylor D.; Clayton, Leah K.; Huang, Lingcao; Zhao, Yuhuan; Wig, Elizabeth; Moghaddam, Mahta; Zebker, Howard; Schaefer, Kevin
- Abstract
In permafrost regions, active layer thickness (ALT) observations measure the effects of climate change and predict hydrologic and elemental cycling. Often, ALT is measured through direct ground-based measurements. Recently, synthetic aperture radar (SAR) measurements from airborne platforms have emerged as a method for observing seasonal thaw subsidence, soil moisture, and ALT in permafrost regions. This study validates airborne SAR-derived ALT estimates in three regions of Alaska, USA using calibrated ground penetrating radar (GPR) geophysical data. The remotely sensed ALT estimates matched the field observations within uncertainty for 79% of locations. The average uncertainty for the GPR-derived ALT validation dataset was 0.14 m while the average uncertainty for the SAR-derived ALT in pixels coincident with GPR data was 0.19 m. In the region near Utqiaġvik, the remotely sensed ALT appeared slightly larger than field observations while in the Yukon-Kuskokwim Delta region, the remotely sensed ALT appeared slightly smaller than field observations. In the northern foothills of the Brooks Range, near Toolik Lake, there was minimal bias between the field data and remotely sensed estimates. These findings suggest that airborne SAR-derived ALT estimates compare well with in situ probing and GPR, making SAR an effective tool to monitor permafrost measurements.
- Subjects
BROOKS Range (Alaska); ALASKA; GROUND penetrating radar; PERMAFROST; SYNTHETIC aperture radar; SEASONS; TUNDRAS; SOIL moisture
- Publication
Remote Sensing, 2021, Vol 13, Issue 15, p2876
- ISSN
2072-4292
- Publication type
Article
- DOI
10.3390/rs13152876