'Tipping-point in ice-sheet grounding-zone melting due to ocean water intrusion' by Bradley and Hewitt ...
Code to solve equations and produce figures in "Tipping-point in ice-sheet grounding-zone melting due to ocean water intrusion" by Bradley and Hewitt. This code is written in MATLAB. It does not require any extra MATLAB packages to be installed. It was developed with MATLAB R2022a, but sho...
| Main Authors: | , |
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| Format: | Article in Journal/Newspaper |
| Language: | unknown |
| Published: |
Zenodo
2024
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| Subjects: | |
| Online Access: | https://dx.doi.org/10.5281/zenodo.10895498 https://zenodo.org/doi/10.5281/zenodo.10895498 |
| Summary: | Code to solve equations and produce figures in "Tipping-point in ice-sheet grounding-zone melting due to ocean water intrusion" by Bradley and Hewitt. This code is written in MATLAB. It does not require any extra MATLAB packages to be installed. It was developed with MATLAB R2022a, but should work with any newer version of MATLAB (correct as of March 2024). Figures 2-4 of the main text and supplementary figures 2-10 can be generated by downloading the repository and running the appropriate ("make_figureX.m" or "make_supfigX.m") file. Figures are produced by loading data contained in the ./data-for-figures folder, making it quick and easy to reproduce the figures in the paper. The .mat files contained in the ./data-for-figures folder can be produced by running the appropriate generate data script ("generate_data_figureX.m"). Note that these scripts take a long time to run, particularly those sampling large parts of parameter space (i.e. figure 4). Processed data for individual Antarctic ice shelves are ... |
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