Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)

Arctic snow cover dynamics exhibit strong changes in terms of extent and duration due to recent climate changeconditions (Mudryk et al., 2018; Lemke & Jacobi, 2011). In this context, innovative observation methods arehelpful for a better comprehension of the role of the snow for climate research...

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Main Authors: Dedieu, JP, Negrello, Charlene, Jacobi, Hans-Werner, Baladina, Foteini, Duguay, Yannick, Bernard, Eric, Boike, Julia, Gallet, JC, Westermann, Sebastian, Wendleder, Anna
Format: Conference Object
Language:unknown
Published: 2019
Subjects:
Dynamik der Landoberfläche
Arctic
Climate change
polar night
Svalbard
Online Access:https://elib.dlr.de/128641/
https://hal.archives-ouvertes.fr/hal-02158032/
id ftdlr:oai:elib.dlr.de:128641
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:128641 2024-05-19T07:33:14+00:00 Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard) Dedieu, JP Negrello, Charlene Jacobi, Hans-Werner Baladina, Foteini Duguay, Yannick Bernard, Eric Boike, Julia Gallet, JC Westermann, Sebastian Wendleder, Anna 2019-04 https://elib.dlr.de/128641/ https://hal.archives-ouvertes.fr/hal-02158032/ unknown Dedieu, JP und Negrello, Charlene und Jacobi, Hans-Werner und Baladina, Foteini und Duguay, Yannick und Bernard, Eric und Boike, Julia und Gallet, JC und Westermann, Sebastian und Wendleder, Anna (2019) Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard). EGU 2019, 2019-04-07 - 2019-04-12, Wien, Österreich. Dynamik der Landoberfläche Konferenzbeitrag NonPeerReviewed 2019 ftdlr 2024-04-25T00:50:07Z Arctic snow cover dynamics exhibit strong changes in terms of extent and duration due to recent climate changeconditions (Mudryk et al., 2018; Lemke & Jacobi, 2011). In this context, innovative observation methods arehelpful for a better comprehension of the role of the snow for climate research and hydrology. The spatialvariability of snow properties is here addressed for the Ny-Alesund area, Svalbard using satellite radar images in the X-band. This remote sensing method removes the limitations and ambiguities ofoptical imaging limited by the polar night and cloud cover.This study contributes to the Precip-A2 project (OSUG 2020, Grenoble, France), focusing on snow and itsinteraction with the atmosphere: chemistry, radiative processes, and precipitation. One sub-task of the projectis dedicated to X-band active radar measurements (SAR) to retrieve physical properties of arctic snow (spatialvariability, depth estimation), involving consistent ground network including a large international partnership(France, Germany, Norway, Italy).1. Climatology context: for Ny-Alesund area, a change in the occurrence frequency of source region of air masseshas been identified. Consequently, an increase in temperature and water vapour content was detected (Dahlkeand Maturilli, 2016). Temperature time series since 1969 were analyzed and an increase in annual temperature of 0.07 C per year was found. This increase is mainly driven by a positive seasonal trend in winter (DJF); thus,influencing the fraction of annual precipitation falling as snow / rain. 2. Remote sensing application: a set of ten SAR images was provided by the DLR during winter 2017 from theTerraSAR-X sensor (3.1 cm, 9.6 GHz) in dual co-pol HH, VV (2.5 m resolution). Descending and ascending orbitswere combined at 35-38 incidence angles to avoid topographic constraints. The data were processed with the ESA SNAP toolbox. Output products: non-polarimetric analysis providing regular snow mapping from Marchto June 2017 and polarimetric analysis related to the ... Conference Object Arctic Arctic Climate change polar night Svalbard German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Dynamik der Landoberfläche
spellingShingle Dynamik der Landoberfläche
Dedieu, JP
Negrello, Charlene
Jacobi, Hans-Werner
Baladina, Foteini
Duguay, Yannick
Bernard, Eric
Boike, Julia
Gallet, JC
Westermann, Sebastian
Wendleder, Anna
Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
topic_facet Dynamik der Landoberfläche
description Arctic snow cover dynamics exhibit strong changes in terms of extent and duration due to recent climate changeconditions (Mudryk et al., 2018; Lemke & Jacobi, 2011). In this context, innovative observation methods arehelpful for a better comprehension of the role of the snow for climate research and hydrology. The spatialvariability of snow properties is here addressed for the Ny-Alesund area, Svalbard using satellite radar images in the X-band. This remote sensing method removes the limitations and ambiguities ofoptical imaging limited by the polar night and cloud cover.This study contributes to the Precip-A2 project (OSUG 2020, Grenoble, France), focusing on snow and itsinteraction with the atmosphere: chemistry, radiative processes, and precipitation. One sub-task of the projectis dedicated to X-band active radar measurements (SAR) to retrieve physical properties of arctic snow (spatialvariability, depth estimation), involving consistent ground network including a large international partnership(France, Germany, Norway, Italy).1. Climatology context: for Ny-Alesund area, a change in the occurrence frequency of source region of air masseshas been identified. Consequently, an increase in temperature and water vapour content was detected (Dahlkeand Maturilli, 2016). Temperature time series since 1969 were analyzed and an increase in annual temperature of 0.07 C per year was found. This increase is mainly driven by a positive seasonal trend in winter (DJF); thus,influencing the fraction of annual precipitation falling as snow / rain. 2. Remote sensing application: a set of ten SAR images was provided by the DLR during winter 2017 from theTerraSAR-X sensor (3.1 cm, 9.6 GHz) in dual co-pol HH, VV (2.5 m resolution). Descending and ascending orbitswere combined at 35-38 incidence angles to avoid topographic constraints. The data were processed with the ESA SNAP toolbox. Output products: non-polarimetric analysis providing regular snow mapping from Marchto June 2017 and polarimetric analysis related to the ...
format Conference Object
author Dedieu, JP
Negrello, Charlene
Jacobi, Hans-Werner
Baladina, Foteini
Duguay, Yannick
Bernard, Eric
Boike, Julia
Gallet, JC
Westermann, Sebastian
Wendleder, Anna
author_facet Dedieu, JP
Negrello, Charlene
Jacobi, Hans-Werner
Baladina, Foteini
Duguay, Yannick
Bernard, Eric
Boike, Julia
Gallet, JC
Westermann, Sebastian
Wendleder, Anna
author_sort Dedieu, JP
title Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
title_short Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
title_full Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
title_fullStr Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
title_full_unstemmed Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard)
title_sort impact of recent climate change in the arctic on snow physical parameters retrieval using sar data (svalbard)
publishDate 2019
url https://elib.dlr.de/128641/
https://hal.archives-ouvertes.fr/hal-02158032/
genre Arctic
Arctic
Climate change
polar night
Svalbard
genre_facet Arctic
Arctic
Climate change
polar night
Svalbard
op_relation Dedieu, JP und Negrello, Charlene und Jacobi, Hans-Werner und Baladina, Foteini und Duguay, Yannick und Bernard, Eric und Boike, Julia und Gallet, JC und Westermann, Sebastian und Wendleder, Anna (2019) Impact of recent climate change in the Arctic on snow physical parameters retrieval using SAR data (Svalbard). EGU 2019, 2019-04-07 - 2019-04-12, Wien, Österreich.
_version_ 1799471326183817216

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