Published December 11, 2021
| Version v1
Journal article
Open
Model results for: "Subglacial discharge reflux and buoyancy forcing drive seasonality in a silled glacial fjord", Part 2
Creators
- 1. University of Oregon
- 2. University of Alaska Southeast
- 3. Rutgers University
- 4. University of Alaska Fairbanks, University of Alaska Southeast
- 5. Oregon State University
Description
MITgcm model output and start-up files for "Subglacial discharge reflux and buoyancy forcing drive seasonality in a silled glacial fjord". Submitted to Journal of Geophysical Research: Oceans – December, 2021. 7 of 7 runs are included here. The remaining runs are archived at: doi: 10.5281/zenodo.5774228
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md5:9ea0be9e7e5ece86884e8b4a6f394d60
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md5:ca65ff2c80436900d80da799868532e0
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6.4 GB | Download |
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md5:33425bce7343eb7b4ab32a686043dc4c
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239.4 MB | Download |
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md5:4b209c3d1390108ae03ab70d11792e2a
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md5:a6713d838725635d4d14efe03e781963
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239.5 MB | Download |
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md5:84701f196ae6ea0cc1133563806d67b9
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19.6 GB | Download |
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md5:772fbf1af0a363f98c536fd5c3771795
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744.3 MB | Download |
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md5:295ad55e413faac9ec12121810c55964
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2.2 kB | Download |
Additional details
Funding
- Collaborative Research: Impact of subglacial discharge on turbulent plume dynamics and ocean-glacier heat and mass transfer 1504191
- National Science Foundation
- Collaborative Research: Impact of subglacial discharge on turbulent plume dynamics and ocean-glacier heat and mass transfer 1504288
- National Science Foundation
- Collaborative Research: Impact of subglacial discharge on turbulent plume dynamics and ocean-glacier heat and mass transfer 1503910
- National Science Foundation
- Collaborative Research: Impact of subglacial discharge on turbulent plume dynamics and ocean-glacier heat and mass transfer 1504521
- National Science Foundation