Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice

Wind transport alters the snow topography and microstructure on sea ice through snow redistribution controlled by deposition and erosion. The impact of these processes on radar signatures is poorly understood. Here, we examine the effects of snow redistribution on Arctic sea ice from Ka- and Ku-band...

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Main Authors: Nandan, Vishnu, Willatt, Rosemary, Mallett, Robbie, Stroeve, Julienne, Geldsetzer, Torsten, Scharien, Randall, Tonboe, Rasmus, Landy, Jack, Clemens-Sewall, David, Jutila, Arttu, Wagner, David N., Krampe, Daniela, Huntemann, Marcus, Yackel, John, Mahmud, Mallik, Jensen, David, Newman, Thomas, Hendricks, Stefan, Spreen, Gunnar, Macfarlane, Amy, Schneebeli, Martin, Mead, James, Ricker, Robert, Gallagher, Michael, Duguay, Claude, Raphael, Ian, Polashenski, Chris, Tsamados, Michel, Matero, Ilkka, Hoppman, Mario
Format: Text
Language:English
Published: 2022
Subjects:
Arctic
Sea ice
Online Access:https://doi.org/10.5194/tc-2022-116
https://tc.copernicus.org/preprints/tc-2022-116/
id ftcopernicus:oai:publications.copernicus.org:tcd104471
record_format openpolar
spelling ftcopernicus:oai:publications.copernicus.org:tcd104471 2023-05-15T15:01:52+02:00 Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice Nandan, Vishnu Willatt, Rosemary Mallett, Robbie Stroeve, Julienne Geldsetzer, Torsten Scharien, Randall Tonboe, Rasmus Landy, Jack Clemens-Sewall, David Jutila, Arttu Wagner, David N. Krampe, Daniela Huntemann, Marcus Yackel, John Mahmud, Mallik Jensen, David Newman, Thomas Hendricks, Stefan Spreen, Gunnar Macfarlane, Amy Schneebeli, Martin Mead, James Ricker, Robert Gallagher, Michael Duguay, Claude Raphael, Ian Polashenski, Chris Tsamados, Michel Matero, Ilkka Hoppman, Mario 2022-07-29 application/pdf https://doi.org/10.5194/tc-2022-116 https://tc.copernicus.org/preprints/tc-2022-116/ eng eng doi:10.5194/tc-2022-116 https://tc.copernicus.org/preprints/tc-2022-116/ eISSN: 1994-0424 Text 2022 ftcopernicus https://doi.org/10.5194/tc-2022-116 2022-08-01T16:22:41Z Wind transport alters the snow topography and microstructure on sea ice through snow redistribution controlled by deposition and erosion. The impact of these processes on radar signatures is poorly understood. Here, we examine the effects of snow redistribution on Arctic sea ice from Ka- and Ku-band radar signatures. Measurements were obtained during two wind events in November 2019 during the MOSAiC expedition. During both events, changes in Ka- and Ku-band radar waveforms and backscatter coincident with surface height changes measured from a terrestrial laser scanner are observed. At both frequencies, snow redistribution events increased the dominance of the air/snow interface at nadir as the dominant radar scattering surface, due to wind densifying the snow surface and uppermost layers. The radar waveform data also detect the presence of previous air/snow interfaces, buried beneath newly deposited snow. The additional scattering from previous air/snow interfaces could therefore affect the range retrieved from Ka- and Ku-band satellite radar altimeters. The relative scattering contribution of the air/snow interface decreases, and the snow/sea ice interface increases with increasing incidence angles. Relative to pre-wind conditions, azimuthally averaged backscatter at nadir during the wind events increases by up to 8 dB (Ka-band) and 5 dB (Ku-band). Binned backscatter within 5° azimuth bins reveals substantial backscatter variability in the radar footprint at all incidence angles and polarizations. The sensitivity of the co-polarized phase difference is linked to changes in snow settling and temperature-gradient induced grain metamorphism, demonstrating the potential of the radar to discriminate between newly deposited and older snow on sea ice. Our results reveal the importance of wind, through its geophysical impact on Ka- and Ku-band radar signatures of snow on sea ice and has implications for reliable interpretation of airborne and satellite radar measurements of snow-covered sea ice. Text Arctic Sea ice Copernicus Publications: E-Journals Arctic
institution Open Polar
collection Copernicus Publications: E-Journals
op_collection_id ftcopernicus
language English
description Wind transport alters the snow topography and microstructure on sea ice through snow redistribution controlled by deposition and erosion. The impact of these processes on radar signatures is poorly understood. Here, we examine the effects of snow redistribution on Arctic sea ice from Ka- and Ku-band radar signatures. Measurements were obtained during two wind events in November 2019 during the MOSAiC expedition. During both events, changes in Ka- and Ku-band radar waveforms and backscatter coincident with surface height changes measured from a terrestrial laser scanner are observed. At both frequencies, snow redistribution events increased the dominance of the air/snow interface at nadir as the dominant radar scattering surface, due to wind densifying the snow surface and uppermost layers. The radar waveform data also detect the presence of previous air/snow interfaces, buried beneath newly deposited snow. The additional scattering from previous air/snow interfaces could therefore affect the range retrieved from Ka- and Ku-band satellite radar altimeters. The relative scattering contribution of the air/snow interface decreases, and the snow/sea ice interface increases with increasing incidence angles. Relative to pre-wind conditions, azimuthally averaged backscatter at nadir during the wind events increases by up to 8 dB (Ka-band) and 5 dB (Ku-band). Binned backscatter within 5° azimuth bins reveals substantial backscatter variability in the radar footprint at all incidence angles and polarizations. The sensitivity of the co-polarized phase difference is linked to changes in snow settling and temperature-gradient induced grain metamorphism, demonstrating the potential of the radar to discriminate between newly deposited and older snow on sea ice. Our results reveal the importance of wind, through its geophysical impact on Ka- and Ku-band radar signatures of snow on sea ice and has implications for reliable interpretation of airborne and satellite radar measurements of snow-covered sea ice.
format Text
author Nandan, Vishnu
Willatt, Rosemary
Mallett, Robbie
Stroeve, Julienne
Geldsetzer, Torsten
Scharien, Randall
Tonboe, Rasmus
Landy, Jack
Clemens-Sewall, David
Jutila, Arttu
Wagner, David N.
Krampe, Daniela
Huntemann, Marcus
Yackel, John
Mahmud, Mallik
Jensen, David
Newman, Thomas
Hendricks, Stefan
Spreen, Gunnar
Macfarlane, Amy
Schneebeli, Martin
Mead, James
Ricker, Robert
Gallagher, Michael
Duguay, Claude
Raphael, Ian
Polashenski, Chris
Tsamados, Michel
Matero, Ilkka
Hoppman, Mario
spellingShingle Nandan, Vishnu
Willatt, Rosemary
Mallett, Robbie
Stroeve, Julienne
Geldsetzer, Torsten
Scharien, Randall
Tonboe, Rasmus
Landy, Jack
Clemens-Sewall, David
Jutila, Arttu
Wagner, David N.
Krampe, Daniela
Huntemann, Marcus
Yackel, John
Mahmud, Mallik
Jensen, David
Newman, Thomas
Hendricks, Stefan
Spreen, Gunnar
Macfarlane, Amy
Schneebeli, Martin
Mead, James
Ricker, Robert
Gallagher, Michael
Duguay, Claude
Raphael, Ian
Polashenski, Chris
Tsamados, Michel
Matero, Ilkka
Hoppman, Mario
Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
author_facet Nandan, Vishnu
Willatt, Rosemary
Mallett, Robbie
Stroeve, Julienne
Geldsetzer, Torsten
Scharien, Randall
Tonboe, Rasmus
Landy, Jack
Clemens-Sewall, David
Jutila, Arttu
Wagner, David N.
Krampe, Daniela
Huntemann, Marcus
Yackel, John
Mahmud, Mallik
Jensen, David
Newman, Thomas
Hendricks, Stefan
Spreen, Gunnar
Macfarlane, Amy
Schneebeli, Martin
Mead, James
Ricker, Robert
Gallagher, Michael
Duguay, Claude
Raphael, Ian
Polashenski, Chris
Tsamados, Michel
Matero, Ilkka
Hoppman, Mario
author_sort Nandan, Vishnu
title Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
title_short Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
title_full Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
title_fullStr Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
title_full_unstemmed Wind Transport of Snow Impacts Ka- and Ku-band Radar Signatures on Arctic Sea Ice
title_sort wind transport of snow impacts ka- and ku-band radar signatures on arctic sea ice
publishDate 2022
url https://doi.org/10.5194/tc-2022-116
https://tc.copernicus.org/preprints/tc-2022-116/
geographic Arctic
geographic_facet Arctic
genre Arctic
Sea ice
genre_facet Arctic
Sea ice
op_source eISSN: 1994-0424
op_relation doi:10.5194/tc-2022-116
https://tc.copernicus.org/preprints/tc-2022-116/
op_doi https://doi.org/10.5194/tc-2022-116
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