Antarctic Geothermal Heat Flow Model: Aq1

We present a refined map of geothermal heat flow for Antarctica, Aq1, based on multiple observables. The map is generated using a similarity detection approach by attributing observables from geophysics and geology to a large number of high‐quality heat flow values ( N =5,792) from other continents....

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Bibliographic Details
Published in:Geochemistry, Geophysics, Geosystems
Main Authors: Staal, T, Reading, AM, Halpin, JA, Whittaker, J
Format: Article in Journal/Newspaper
Language:English
Published: Amer Geophysical Union 2020
Subjects:
Engineering
Fluid mechanics and thermal engineering
Computational methods in fluid flow
heat and mass transfer (incl. computational fluid dynamics)
Antarctic
Victoria Land
Byrd
Wilkes Land
Marie Byrd Land
Thwaites Glacier
Palmer Land
Coats Land
Queen Mary Land
Antarc*
Antarctica
Ice Sheet
Queen Mary land
Online Access:https://doi.org/10.1029/2020GC009428
http://ecite.utas.edu.au/143094
Description
Summary:We present a refined map of geothermal heat flow for Antarctica, Aq1, based on multiple observables. The map is generated using a similarity detection approach by attributing observables from geophysics and geology to a large number of high‐quality heat flow values ( N =5,792) from other continents. Observables from global, continental, and regional datasets for Antarctica are used with a weighting function that allows the degree of similarity to increase with proximity and how similar the observables are. The similarity detection parameters are optimized through cross correlation. For each grid cell in Antarctica, a weighted average heat flow value and uncertainty metrics are calculated. The Aq1 model provides higher spatial resolution in comparison to previous results. High heat flow is shown in the Thwaites Glacier region, with local values over 150mWm −2 . We also map elevated values over 80 mWm −2 in Palmer Land, Marie Byrd Land, Victoria Land and Queen Mary Land. Very low heat flow is shown in the interior of Wilkes Land and Coats Land, with values under 40 mWm −2 . We anticipate that the new geothermal heat flow map, Aq1, and its uncertainty bounds will find extended use in providing boundary conditions for ice sheet modeling and understanding the interactions between the cryosphere and solid Earth. The computational framework and open architecture allow for the model to be reproduced, adapted and updated with additional data, or model subsets to be output at higher resolution for regional studies.

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