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Synchronously coupled idealized ice shelf-ocean model runs
GB/NERC/BAS/PDC/01018

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Summary

Abstract:
Model output from a series of idealised ice shelf-ocean simulations, demonstrating a new synchronously coupled modelling method as well as the response of ice shelf buttressing to melt under various temperature forcings.

Keywords:
coupled modelling, ice shelf, ice shelf buttressing, ice stream

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Citation

Jordan, J. (2017). Synchronously coupled idealized ice shelf-ocean model runs (Version None) [Data set]. Polar Data Centre; British Antarctic Survey, Natural Environment Research Council; Cambridge, CB3 0ET, UK.. https://doi.org/10.5285/3703f91b-9536-49e5-b72a-d69bd80fbe51

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Constraints

Use Constraints: Data released under Open Government Licence V3.0: http://www.nationalarchives.gov.uk/doc/open-government-licence/version/3/

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Basic Information

Creation Date: 2017-10-18
Dataset Progress: Complete
Dataset Language: English
ISO Topic Categories:  
  • Environment
  • Oceans
Parameters:
  • Cryosphere > Glaciers/Ice Sheets > Glacier Thickness/Ice Sheet Thickness
Personnel:
Name Dr Petra ten Hoopen
Role(s) Metadata Author
Organisation British Antarctic Survey
   
Name Dr James Jordan
Role(s) Investigator
Organisation British Antarctic Survey
   
Parent Dataset: N/A

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Additional Information

Reference: Jordan JR, Holland PR, Goldberg D, Snow K, Arthern R, Campin JM, Heimbach P, Jenkins A (2017) Ocean-forced ice-shelf thinning in a synchronously coupled ice-ocean model. JGR-Oceans (JGR-Oceans, doi:10.1002/2017JC013251).
Quality: Data presented is monthly mean averages of the model output for various fields.
Lineage: The model simulations were carried out using MITgcm (www.MITgcm.org) version c66j, with the addition of the changes described in Jordan et al. JGR-Oceans (2017).
The model data is supplied in netcdf format with text files of the individual simulation setups also provided. Netcdf files are named inline with their description in Jordan et al. JGR-Oceans (2017), having 7 runs where the number represents the depth of the pycnocline in meters as well as a constant hot and cold forcing.

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Locality

Data Resolution:
Latitude Resolution N/A
Longitude Resolution   N/A
Horizontal Resolution Range 1 km - < 10 km or approximately .01 degree - < .09 degree
Vertical Resolution 20m
Vertical Resolution Range N/A
Temporal Resolution 60 days
Temporal Resolution Range N/A
   

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Instrumentation

Data Collection: Model runs were carried out on the UKs national supercomputer facility, ARCHER


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