CMIP6 models rarely simulate Antarctic winter sea-ice anomalies as large as observed in 2023 ...
Contains processed data to create all figures and tables from the publication Diamond et al. (2024) CMIP6 models rarely simulate Antarctic winter sea-ice anomalies as large as observed in 2023; Geophysical Research Letters [Full reference available on publication] Directory structure and associated...
| Main Authors: | , , , |
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| Format: | Dataset |
| Language: | unknown |
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Zenodo
2024
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| Subjects: | |
| Online Access: | https://dx.doi.org/10.5281/zenodo.10956296 https://zenodo.org/doi/10.5281/zenodo.10956296 |
| Summary: | Contains processed data to create all figures and tables from the publication Diamond et al. (2024) CMIP6 models rarely simulate Antarctic winter sea-ice anomalies as large as observed in 2023; Geophysical Research Letters [Full reference available on publication] Directory structure and associated contents listed below. Folders contain all data required to make corresponding figure, apart from where indicated. Full description of analysis in Diamond et al. (2024). Unless otherwise indicated, 'SIE' refers to August Antarctic SIE. F1/ f1a_obs_ts.csv: Timeseries of 1979-2023 SIE f1b_all_instances.csv: All instances (labelled by model, simulation, and simulation year) where an anomaly of magnitude SIE_2023 was detected. SIE timeseries from years -20 to +20 about each anomaly. f1b_quartiles.csv: Upper and lower quartiles, mean, and median, computed over all instances. F2/ F2_a.csv: 5--95% range of SIE variability dataset, for all model simulations, and observations. F2_b.csv: T_aug23, computed using ECDFs, for ... |
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