Sea ice deformation and rotation rates (SIDRR) from the ECCC-ASITS

Description: This dataset offers pan-Arctic sea ice deformation and rotation rates (SIDRR) computed from Sentinel1 (S1) and the Radarsat Constellation Mission (RCM) Synthetic Aperture Radar (SAR) imagery, based on Sea Ice Motion (SIM) vector outputs from the Environment and Climate Change Canada Aut...

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Bibliographic Details
Main Authors: Plante, Mathieu, Lemieux, Jean-François, Tremblay, L. Bruno, Bouchat, Amélie, Ringeisen, Damien, Blain, Philippe, Howell, Stephen, Brady, Mike, Alexander, Komarov, Duval, Beatrice, Yakuden, Lekima, Labelle, Frédérique
Format: Other/Unknown Material
Language:unknown
Published: Zenodo 2024
Subjects:
Climate change
Sea ice
Online Access:https://doi.org/10.5281/zenodo.11520803
Description
Summary:Description: This dataset offers pan-Arctic sea ice deformation and rotation rates (SIDRR) computed from Sentinel1 (S1) and the Radarsat Constellation Mission (RCM) Synthetic Aperture Radar (SAR) imagery, based on Sea Ice Motion (SIM) vector outputs from the Environment and Climate Change Canada Automated Sea Ice tracking System (ECCC-ASITS, Howell et al., 2022). The ASITS produces lists of sea ice motion vectors derived by tracking recognizable features in overlapping pairs of SAR images (Komarov and Barber, 2014). The tracked features from each SAR image pair are triangulated, and the SIDRRs computed using a line integral method (Bouchat et al., 2020, 2022) based on the velocity and start location of each vertex. Format: The raw SIDRR data from multiple SAR images are stacked in daily netcdf output files, based on the acquisition time of the earliest image in the pair. The netcdf files thus include data from variable time and space resolutions depending on the triangulation and images acquisition time, in the ranges of 4 - 20 km and 12 h - 6 days. Each file is named with the convention “SIDRR_YYYYMMDD.nc”. For example, “SIDRR_20210101.nc” contains data from pairs with the first image acquisition time on January 1 st , 2021. Dimension and variable names: Dimensions: n triangle ID number Variables: idpair (n) SAR scene pair ID number ids1 (n) ID of triangle vertex 1 ids2 (n) ID of triangle vertex 2 ids3 (n) ID of triangle vertex 3 start_time Acquisition time, SAR image #1 (hrs since ref. time) end_time Acquisition time, SAR image #2 (hrs since ref. time) start_lat1 Start latitude, tracked vertex 1 (ºN) start_lat2 Start latitude, tracked vertex 2 (ºN) start_lat3 Start latitude, tracked vertex 3 (ºN) start_lon1 Start longitude, tracked vertex 1 (ºE) start_lon2 Start longitude, tracked vertex 2 (ºE) start_lon3 Start longitude, tracked vertex 3 (ºE) end_lat1 End latitude, tracked vertex 1 (ºN) end_lat2 End latitude, tracked vertex 2 (ºN) end_lat3 End latitude, tracked vertex 3 (ºN) end_lon1 End longitude, tracked ...

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