Arctic Sea Ice Surface Roughness Estimated from Multi-Angular Reflectance Satellite Imagery
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Authors
Nolin, Anne W.
Mar, Eugene
Issue Date
2019
Type
Article
Language
Keywords
remote sensing , misr , sea ice , surface roughness
Alternative Title
Abstract
Sea ice surface roughness affects ice-atmosphere interactions, serves as an indicator of ice age, shows patterns of ice convergence and divergence, affects the spatial extent of summer meltponds, and affects ice albedo. We have developed a method for mapping sea ice surface roughness using angular reflectance data from the Multi-angle Imaging SpectroRadiometer (MISR) and lidar-derived roughness measurements from the Airborne Topographic Mapper (ATM). Using an empirical data modeling approach, we derived estimates of Arctic sea ice roughness ranging from centimeters to decimeters within the MISR 275-m pixel size. Using independent ATM data for validation, we find that histograms of lidar and multi-angular roughness values were nearly identical for areas with a roughness < 20 cm, but for rougher regions, the MISR-estimated roughness had a narrower range of values than the ATM data. The algorithm was able to accurately identify areas that transition between smooth and rough ice. Because of its coarser spatial scale, MISR-estimated roughness data have a variance about half that of ATM roughness data.
Description
Citation
Nolin, A., & Mar, E. (2018). Arctic Sea Ice Surface Roughness Estimated from Multi-Angular Reflectance Satellite Imagery. Remote Sensing, 11(1), 50. doi:10.3390/rs11010050
Publisher
Journal
Volume
Issue
PubMed ID
ISSN
2072-4292