Derivation of High Spatial Resolution Albedo from UAV Digital Imagery: Application over the Greenland Ice Sheet
Permanent link
https://hdl.handle.net/10037/12264Date
2017-05-23Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Ryan, Jonathan C.; Hubbard, Alun Lloyd; Box, Jason E.; Brough, Stephen; Cameron, Karen; Cook, Joseph M.; Cooper, Matthew; Doyle, Samuel H.; Edwards, Arwyn; Holt, Tom; Irvine-Fynn, Tristram; Jones, Christine; Pitcher, Lincoln H.; Rennermalm, Åsa K.; Smith, Laurence C.; Stibal, Marek; Snooke, NealAbstract
Measurements of albedo are a prerequisite for modeling surface melt across the
Earth’s cryosphere, yet available satellite products are limited in spatial and/or temporal
resolution. Here, we present a practical methodology to obtain centimeter resolution
albedo products with accuracies of ±5% using consumer-grade digital camera and
unmanned aerial vehicle (UAV) technologies. Our method comprises a workflow for
processing, correcting and calibrating raw digital images using a white reference target,
and upward and downward shortwave radiation measurements from broadband silicon
pyranometers. We demonstrate the method with a set of UAV sorties over the western,
K-sector of the Greenland Ice Sheet. The resulting albedo product, UAV10A1, covers
280 km2
, at a resolution of 20 cm per pixel and has a root-mean-square difference
of 3.7% compared to MOD10A1 and 4.9% compared to ground-based broadband
pyranometer measurements. By continuously measuring downward solar irradiance, the
technique overcomes previous limitations due to variable illumination conditions during
and between surveys over glaciated terrain. The current miniaturization of multispectral
sensors and incorporation of upward facing radiation sensors on UAV packages means
that this technique could become increasingly common in field studies and used for a
wide range of applications. These include the mapping of debris, dust, cryoconite and
bioalbedo, and directly constraining surface energy balance models.