The peaks and patterns of Antarctic crustal heat production
The geothermal heat flux to the base of the Antarctic ice sheet is inherently difficult to measure, yet accurate estimates are necessary to better understand cryosphere dynamics. Radiogenic heating within the crust from decay of naturally occurring radioactive heat producing elements (HPEs) is a sig...
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ftunivtasecite:oai:ecite.utas.edu.au:131215 2023-05-15T13:55:18+02:00 The peaks and patterns of Antarctic crustal heat production Halpin, J Burton-Johnson, A Watson, S Whittaker, J Maritati, A Staal, T Reading, A Hand, M Hasterok, D McLaren, S 2018 application/pdf http://agcc.org.au/ http://ecite.utas.edu.au/131215 en eng . http://ecite.utas.edu.au/131215/1/AGCC_abstracts 476_Halpin2018.pdf Halpin, J and Burton-Johnson, A and Watson, S and Whittaker, J and Maritati, A and Staal, T and Reading, A and Hand, M and Hasterok, D and McLaren, S, The peaks and patterns of Antarctic crustal heat production, Australian Geoscience Council Convention Abstracts, 14-18 October 2018, Adelaide, South Australia, pp. 476. (2018) [Conference Extract] http://ecite.utas.edu.au/131215 Earth Sciences Geochemistry Inorganic Geochemistry Conference Extract NonPeerReviewed 2018 ftunivtasecite 2019-12-13T22:29:08Z The geothermal heat flux to the base of the Antarctic ice sheet is inherently difficult to measure, yet accurate estimates are necessary to better understand cryosphere dynamics. Radiogenic heating within the crust from decay of naturally occurring radioactive heat producing elements (HPEs) is a significant component of the total surface heat flux budget. The distribution of HPEs is heterogeneous at a range of scales, and fundamentally tied to the geological evolution of the lithosphere in space and time. Despite this, current Antarctic geothermal heat flux models use laterally homogeneous heat production. Furthermore, regional ice sheet models have shown that localised regions of high HPE-enriched crust can impact the organisation of ice flow in slow-flowing regions, underscoring the need for improved knowledge of both the magnitude and spatial variability of heat production in the Antarctic crust. We have assembled the first database of Antarctic-wide geochemical data, with over 14,000 entries, >8,000 of which can be utilised for heat production calculations. Preliminary analysis suggests that the mean heat production rates for Antarctic Archean, Proterozoic and Phanerozoic rocks exceed global averages and are higher and more variable than those currently used in Antarctic geothermal heat flux models. Felsic igneous rocks that intruded during/after the Ediacaran-Cambrian assembly of Gondwana are particularly HPE-enriched (mean >3.5 μW/m compared to global upper crust ~1.6 μW/m), and require further identification/mapping across East Antarctica. Our ultimate aim is to work towards more accurate predictions of Antarctic geothermal heat flux for use by (for example) the ice sheet modelling community. Conference Object Antarc* Antarctic Antarctica East Antarctica Ice Sheet eCite UTAS (University of Tasmania) Antarctic The Antarctic East Antarctica |
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Open Polar |
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eCite UTAS (University of Tasmania) |
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ftunivtasecite |
| language |
English |
| topic |
Earth Sciences Geochemistry Inorganic Geochemistry |
| spellingShingle |
Earth Sciences Geochemistry Inorganic Geochemistry Halpin, J Burton-Johnson, A Watson, S Whittaker, J Maritati, A Staal, T Reading, A Hand, M Hasterok, D McLaren, S The peaks and patterns of Antarctic crustal heat production |
| topic_facet |
Earth Sciences Geochemistry Inorganic Geochemistry |
| description |
The geothermal heat flux to the base of the Antarctic ice sheet is inherently difficult to measure, yet accurate estimates are necessary to better understand cryosphere dynamics. Radiogenic heating within the crust from decay of naturally occurring radioactive heat producing elements (HPEs) is a significant component of the total surface heat flux budget. The distribution of HPEs is heterogeneous at a range of scales, and fundamentally tied to the geological evolution of the lithosphere in space and time. Despite this, current Antarctic geothermal heat flux models use laterally homogeneous heat production. Furthermore, regional ice sheet models have shown that localised regions of high HPE-enriched crust can impact the organisation of ice flow in slow-flowing regions, underscoring the need for improved knowledge of both the magnitude and spatial variability of heat production in the Antarctic crust. We have assembled the first database of Antarctic-wide geochemical data, with over 14,000 entries, >8,000 of which can be utilised for heat production calculations. Preliminary analysis suggests that the mean heat production rates for Antarctic Archean, Proterozoic and Phanerozoic rocks exceed global averages and are higher and more variable than those currently used in Antarctic geothermal heat flux models. Felsic igneous rocks that intruded during/after the Ediacaran-Cambrian assembly of Gondwana are particularly HPE-enriched (mean >3.5 μW/m compared to global upper crust ~1.6 μW/m), and require further identification/mapping across East Antarctica. Our ultimate aim is to work towards more accurate predictions of Antarctic geothermal heat flux for use by (for example) the ice sheet modelling community. |
| format |
Conference Object |
| author |
Halpin, J Burton-Johnson, A Watson, S Whittaker, J Maritati, A Staal, T Reading, A Hand, M Hasterok, D McLaren, S |
| author_facet |
Halpin, J Burton-Johnson, A Watson, S Whittaker, J Maritati, A Staal, T Reading, A Hand, M Hasterok, D McLaren, S |
| author_sort |
Halpin, J |
| title |
The peaks and patterns of Antarctic crustal heat production |
| title_short |
The peaks and patterns of Antarctic crustal heat production |
| title_full |
The peaks and patterns of Antarctic crustal heat production |
| title_fullStr |
The peaks and patterns of Antarctic crustal heat production |
| title_full_unstemmed |
The peaks and patterns of Antarctic crustal heat production |
| title_sort |
peaks and patterns of antarctic crustal heat production |
| publisher |
. |
| publishDate |
2018 |
| url |
http://agcc.org.au/ http://ecite.utas.edu.au/131215 |
| geographic |
Antarctic The Antarctic East Antarctica |
| geographic_facet |
Antarctic The Antarctic East Antarctica |
| genre |
Antarc* Antarctic Antarctica East Antarctica Ice Sheet |
| genre_facet |
Antarc* Antarctic Antarctica East Antarctica Ice Sheet |
| op_relation |
http://ecite.utas.edu.au/131215/1/AGCC_abstracts 476_Halpin2018.pdf Halpin, J and Burton-Johnson, A and Watson, S and Whittaker, J and Maritati, A and Staal, T and Reading, A and Hand, M and Hasterok, D and McLaren, S, The peaks and patterns of Antarctic crustal heat production, Australian Geoscience Council Convention Abstracts, 14-18 October 2018, Adelaide, South Australia, pp. 476. (2018) [Conference Extract] http://ecite.utas.edu.au/131215 |
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1766261698393538560 |