Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar
During the concluding phase of the NASA Operation IceBridge (OIB), we successfully completed two airborne measurement campaigns (in 2018 and 2021, respectively) using a compact S and C band radar installed on a Single Otter aircraft and collected data over Alaskan mountains, ice fields, and glaciers...
| Published in: | The Cryosphere |
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| Main Authors: | , , , , , , , |
| Format: | Article in Journal/Newspaper |
| Language: | English |
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Copernicus Publications
2023
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| Online Access: | https://doi.org/10.5194/tc-17-175-2023 https://tc.copernicus.org/articles/17/175/2023/tc-17-175-2023.pdf https://doaj.org/article/8b93fe8083424a6c9acede70e651b843 |
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fttriple:oai:gotriple.eu:oai:doaj.org/article:8b93fe8083424a6c9acede70e651b843 2023-05-15T16:22:38+02:00 Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar J. Li F. Rodriguez-Morales X. Fettweis O. Ibikunle C. Leuschen J. Paden D. Gomez-Garcia E. Arnold 2023-01-01 https://doi.org/10.5194/tc-17-175-2023 https://tc.copernicus.org/articles/17/175/2023/tc-17-175-2023.pdf https://doaj.org/article/8b93fe8083424a6c9acede70e651b843 en eng Copernicus Publications doi:10.5194/tc-17-175-2023 1994-0416 1994-0424 https://tc.copernicus.org/articles/17/175/2023/tc-17-175-2023.pdf https://doaj.org/article/8b93fe8083424a6c9acede70e651b843 undefined The Cryosphere, Vol 17, Pp 175-193 (2023) geo info Journal Article https://vocabularies.coar-repositories.org/resource_types/c_6501/ 2023 fttriple https://doi.org/10.5194/tc-17-175-2023 2023-01-22T19:16:48Z During the concluding phase of the NASA Operation IceBridge (OIB), we successfully completed two airborne measurement campaigns (in 2018 and 2021, respectively) using a compact S and C band radar installed on a Single Otter aircraft and collected data over Alaskan mountains, ice fields, and glaciers. This paper reports seasonal snow depths derived from radar data. We found large variations in seasonal radar-inferred depths with multi-modal distributions assuming a constant relative permittivity for snow equal to 1.89. About 34 % of the snow depths observed in 2018 were between 3.2 and 4.2 m, and close to 30 % of the snow depths observed in 2021 were between 2.5 and 3.5 m. We observed snow strata in ice facies, combined percolation and wet-snow facies, and dry-snow facies from radar data and identified the transition areas from wet-snow facies to ice facies for multiple glaciers based on the snow strata and radar backscattering characteristics. Our analysis focuses on the measured strata of multiple years at the caldera of Mount Wrangell (K'elt'aeni) to estimate the local snow accumulation rate. We developed a method for using our radar readings of multi-year strata to constrain the uncertain parameters of interpretation models with the assumption that most of the snow layers detected by the radar at the caldera are annual accumulation layers. At a 2004 ice core and 2005 temperature sensor tower site, the locally estimated average snow accumulation rate is ∼2.89 m w.e. a−1 between the years 2003 and 2021. Our estimate of the snow accumulation rate between 2005 and 2006 is 2.82 m w.e. a−1, which matches closely to the 2.75 m w.e. a−1 inferred from independent ground-truth measurements made the same year. The snow accumulation rate between the years 2003 and 2021 also showed a linear increasing trend of 0.011 m w.e. a−2. This trend is corroborated by comparisons with the surface mass balance (SMB) derived for the same period from the regional atmospheric climate model MAR (Modèle Atmosphérique Régional). According ... Article in Journal/Newspaper glaciers ice core NASA Operation IceBridge (OIB) The Cryosphere Alaska Unknown The Cryosphere 17 1 175 193 |
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Open Polar |
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Unknown |
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fttriple |
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English |
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geo info |
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geo info J. Li F. Rodriguez-Morales X. Fettweis O. Ibikunle C. Leuschen J. Paden D. Gomez-Garcia E. Arnold Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| topic_facet |
geo info |
| description |
During the concluding phase of the NASA Operation IceBridge (OIB), we successfully completed two airborne measurement campaigns (in 2018 and 2021, respectively) using a compact S and C band radar installed on a Single Otter aircraft and collected data over Alaskan mountains, ice fields, and glaciers. This paper reports seasonal snow depths derived from radar data. We found large variations in seasonal radar-inferred depths with multi-modal distributions assuming a constant relative permittivity for snow equal to 1.89. About 34 % of the snow depths observed in 2018 were between 3.2 and 4.2 m, and close to 30 % of the snow depths observed in 2021 were between 2.5 and 3.5 m. We observed snow strata in ice facies, combined percolation and wet-snow facies, and dry-snow facies from radar data and identified the transition areas from wet-snow facies to ice facies for multiple glaciers based on the snow strata and radar backscattering characteristics. Our analysis focuses on the measured strata of multiple years at the caldera of Mount Wrangell (K'elt'aeni) to estimate the local snow accumulation rate. We developed a method for using our radar readings of multi-year strata to constrain the uncertain parameters of interpretation models with the assumption that most of the snow layers detected by the radar at the caldera are annual accumulation layers. At a 2004 ice core and 2005 temperature sensor tower site, the locally estimated average snow accumulation rate is ∼2.89 m w.e. a−1 between the years 2003 and 2021. Our estimate of the snow accumulation rate between 2005 and 2006 is 2.82 m w.e. a−1, which matches closely to the 2.75 m w.e. a−1 inferred from independent ground-truth measurements made the same year. The snow accumulation rate between the years 2003 and 2021 also showed a linear increasing trend of 0.011 m w.e. a−2. This trend is corroborated by comparisons with the surface mass balance (SMB) derived for the same period from the regional atmospheric climate model MAR (Modèle Atmosphérique Régional). According ... |
| format |
Article in Journal/Newspaper |
| author |
J. Li F. Rodriguez-Morales X. Fettweis O. Ibikunle C. Leuschen J. Paden D. Gomez-Garcia E. Arnold |
| author_facet |
J. Li F. Rodriguez-Morales X. Fettweis O. Ibikunle C. Leuschen J. Paden D. Gomez-Garcia E. Arnold |
| author_sort |
J. Li |
| title |
Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| title_short |
Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| title_full |
Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| title_fullStr |
Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| title_full_unstemmed |
Snow stratigraphy observations from Operation IceBridge surveys in Alaska using S and C band airborne ultra-wideband FMCW (frequency-modulated continuous wave) radar |
| title_sort |
snow stratigraphy observations from operation icebridge surveys in alaska using s and c band airborne ultra-wideband fmcw (frequency-modulated continuous wave) radar |
| publisher |
Copernicus Publications |
| publishDate |
2023 |
| url |
https://doi.org/10.5194/tc-17-175-2023 https://tc.copernicus.org/articles/17/175/2023/tc-17-175-2023.pdf https://doaj.org/article/8b93fe8083424a6c9acede70e651b843 |
| genre |
glaciers ice core NASA Operation IceBridge (OIB) The Cryosphere Alaska |
| genre_facet |
glaciers ice core NASA Operation IceBridge (OIB) The Cryosphere Alaska |
| op_source |
The Cryosphere, Vol 17, Pp 175-193 (2023) |
| op_relation |
doi:10.5194/tc-17-175-2023 1994-0416 1994-0424 https://tc.copernicus.org/articles/17/175/2023/tc-17-175-2023.pdf https://doaj.org/article/8b93fe8083424a6c9acede70e651b843 |
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| op_doi |
https://doi.org/10.5194/tc-17-175-2023 |
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The Cryosphere |
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17 |
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| container_start_page |
175 |
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193 |
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