Model Lagrangian trajectories and deformation data analyzed in the Sea Ice Rheology Experiment - Part I

Model Lagrangian trajectories and deformation estimates for sea-ice models participating in the Sea Ice Rheology Experiment (SIREx) - Part I. Model Lagrangian trajectories are integrated offline, starting on January 1st with all available raw RGPS cells positions (interpolated to January 1st 00:00:0...

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Bibliographic Details
Main Authors: Bouchat, Amélie, Hutter, Nils, Chanut, Jérôme, Dupont, Frédéric, Dukhovskoy, Dmitry, Garric, Gilles, Lee, Younjoo, Lemieux, Jean-François, Lique, Camille, Losch, Martin, Maslowski, Wieslaw, Myers, Paul G., Ólason, Einar, Rampal, Pierre, Rasmussen, Till, Talandier, Claude, Tremblay, Bruno, Wang, Qiang
Format: Dataset
Language:unknown
Published: 2022
Subjects:
sea ice
deformation
sea ice modelling
scaling analysis
rheology
Sea ice
Online Access:https://zenodo.org/record/6321323
https://doi.org/10.5281/zenodo.6321323
Description
Summary:Model Lagrangian trajectories and deformation estimates for sea-ice models participating in the Sea Ice Rheology Experiment (SIREx) - Part I. Model Lagrangian trajectories are integrated offline, starting on January 1st with all available raw RGPS cells positions (interpolated to January 1st 00:00:00 UTC). The trajectories are advected at an hourly time step with the models daily velocity output until March 31st. The trajectories are then sampled at a 3-day interval to match the RGPS composite time stamps, and the velocity derivatives (deformation) are calculated using the line integral approximations on the cells' contour. All model trajectories and Lagrangian deformation data therefore have nominal temporal and spatial scales of 3-days and 10-km (same as the RGPS composite), regardless of the original resolution of the model output. The model Lagrangian deformation estimates form the basis quantity for the statistical and spatio-temporal scaling analysis presented in Bouchat et al., Sea Ice Rheology Experiment (SIREx), Part I: Scaling and statistical properties of sea-ice deformation fields, Journal of Geophysical Research: Oceans (2022). This paper also provides further details on the model trajectory integration and deformation calculation. There is one netCDF file per model, per year (1997 and/or 2008). Data are organized in matrices where the (i,j) indices are the Lagrangian cells identifier. This allows us to keep track of neighbouring cells for the scaling analysis. See below for more information on what variables are included in the files, their structure, and how to cite. 1. File naming convention "< Model simulation label >" + _ + "deformation" + _ + "< year >" 2. Variables included (x1,y1), (x1,y2), (x3,y3), (x4,y4): Position of the cells' corners (Lagrangian trajectories) - (meters); A: Cells' area - (meters squared); dudx, dudy, dvdx, dvdy: Cell's velocity derivatives (strain rates/deformation) - (1/seconds); d_dudx, d_dudy, d_dvdx, d_dvdy: Trajectory error on cells' velocity ...

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