Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology

Ice streams are rivers of fast flowing ice, crucial for the mass balance of ice sheets. The Greenland Ice Sheet shows a complex flow pattern, where a few major ice streams drain most of the ice sheet, contributing to sea level rise. It is therefore crucial to capture ice streams in ice flow models w...

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Bibliographic Details
Main Author: Smith-Johnsen, Silje
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: The University of Bergen 2019
Subjects:
Greenland
Ice Sheet
Ice Stream A
Online Access:https://hdl.handle.net/1956/21107
id ftunivbergen:oai:bora.uib.no:1956/21107
record_format openpolar
spelling ftunivbergen:oai:bora.uib.no:1956/21107 2023-05-15T16:23:48+02:00 Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology Smith-Johnsen, Silje 2019-10-31T12:13:16.173Z application/pdf https://hdl.handle.net/1956/21107 eng eng The University of Bergen Paper 1: Smith-Johnsen, S, de Fleurian, B., Nisancioglu, K. H., The role of subglacial hy- drology in ice streams with elevated geothermal heat flux. The article is not available in BORA. Paper 2: Smith-Johnsen, S, Schlegel, N., de Fleurian, B., Nisancioglu, K. H., Sensitivity of the Northeast Greenland Ice Stream to Geothermal Heat. The article is not available in BORA. Paper 3: Smith-Johnsen, S, de Fleurian, B., Schlegel, N., Seroussi, H., Nisancioglu, K. H., Exceptionally High Geothermal Heat Flux Needed to Sustain the North- east Greenland Ice Stream. The article is not available in BORA. container/ab/bd/2e/01/abbd2e01-b6de-443b-9bce-0600983925ed https://hdl.handle.net/1956/21107 cristin:1745897 In copyright http://rightsstatements.org/page/InC/1.0/ Copyright the Author. All rights reserved Doctoral thesis 2019 ftunivbergen 2023-03-14T17:40:37Z Ice streams are rivers of fast flowing ice, crucial for the mass balance of ice sheets. The Greenland Ice Sheet shows a complex flow pattern, where a few major ice streams drain most of the ice sheet, contributing to sea level rise. It is therefore crucial to capture ice streams in ice flow models when predicting the future response of the Greenland Ice Sheet to a warmer climate. The Northeast Greenland Ice Stream (NEGIS) drains 12% of the ice sheet, and holds 1.1 m of sea level equivalent. It displays a unique velocity pattern with fast flow initiated close to the ice divide. This is further inland than any other ice stream in Greenland. Geothermal heat flux, the natural heat from the Earth, is thought to be the trigger of the ice stream. A local high geothermal heat flux at the head of the Northeast Greenland Ice Stream generates basal water which lubricates the ice-bed interface and induces fast flow. Models of geothermal heat flux display a large range for Greenland, and their coarse resolution is unable to capture local anomalies, as the one suggested at the onset of the Northeast Greenland Ice Stream. Previous studies investigated how geothermal heat flux influences ice dynamics, and did not find a significant impact. However, these studies focused on the direct thermal effect on ice softness, and did not include the indirect effect of water pressure. I hypothesize that, excluding the combined effect of geothermal heat flux and subglacial hydrology, accounts for the fact that the observed velocity of the Northeast Greenland Ice Stream is poorly represented in ice sheet models. This thesis investigates how geothermal heat flux influences the subglacial hydrol- ogy and the dynamics of ice streams. The goal is to understand the processes at the bed of the Northeast Greenland Ice Stream, and to improve its representation in an ice sheet model. The model used is the Ice Sheet System Model (ISSM), a state of the art fully coupled thermomechanical ice flow model. Here, for the first time, a sophisticated ... Doctoral or Postdoctoral Thesis Greenland Ice Sheet Ice Stream A University of Bergen: Bergen Open Research Archive (BORA-UiB) Greenland
institution Open Polar
collection University of Bergen: Bergen Open Research Archive (BORA-UiB)
op_collection_id ftunivbergen
language English
description Ice streams are rivers of fast flowing ice, crucial for the mass balance of ice sheets. The Greenland Ice Sheet shows a complex flow pattern, where a few major ice streams drain most of the ice sheet, contributing to sea level rise. It is therefore crucial to capture ice streams in ice flow models when predicting the future response of the Greenland Ice Sheet to a warmer climate. The Northeast Greenland Ice Stream (NEGIS) drains 12% of the ice sheet, and holds 1.1 m of sea level equivalent. It displays a unique velocity pattern with fast flow initiated close to the ice divide. This is further inland than any other ice stream in Greenland. Geothermal heat flux, the natural heat from the Earth, is thought to be the trigger of the ice stream. A local high geothermal heat flux at the head of the Northeast Greenland Ice Stream generates basal water which lubricates the ice-bed interface and induces fast flow. Models of geothermal heat flux display a large range for Greenland, and their coarse resolution is unable to capture local anomalies, as the one suggested at the onset of the Northeast Greenland Ice Stream. Previous studies investigated how geothermal heat flux influences ice dynamics, and did not find a significant impact. However, these studies focused on the direct thermal effect on ice softness, and did not include the indirect effect of water pressure. I hypothesize that, excluding the combined effect of geothermal heat flux and subglacial hydrology, accounts for the fact that the observed velocity of the Northeast Greenland Ice Stream is poorly represented in ice sheet models. This thesis investigates how geothermal heat flux influences the subglacial hydrol- ogy and the dynamics of ice streams. The goal is to understand the processes at the bed of the Northeast Greenland Ice Stream, and to improve its representation in an ice sheet model. The model used is the Ice Sheet System Model (ISSM), a state of the art fully coupled thermomechanical ice flow model. Here, for the first time, a sophisticated ...
format Doctoral or Postdoctoral Thesis
author Smith-Johnsen, Silje
spellingShingle Smith-Johnsen, Silje
Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
author_facet Smith-Johnsen, Silje
author_sort Smith-Johnsen, Silje
title Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
title_short Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
title_full Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
title_fullStr Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
title_full_unstemmed Dynamics of the Northeast Greenland Ice Stream: the role of geothermal heat and subglacial hydrology
title_sort dynamics of the northeast greenland ice stream: the role of geothermal heat and subglacial hydrology
publisher The University of Bergen
publishDate 2019
url https://hdl.handle.net/1956/21107
geographic Greenland
geographic_facet Greenland
genre Greenland
Ice Sheet
Ice Stream A
genre_facet Greenland
Ice Sheet
Ice Stream A
op_relation Paper 1: Smith-Johnsen, S, de Fleurian, B., Nisancioglu, K. H., The role of subglacial hy- drology in ice streams with elevated geothermal heat flux. The article is not available in BORA.
Paper 2: Smith-Johnsen, S, Schlegel, N., de Fleurian, B., Nisancioglu, K. H., Sensitivity of the Northeast Greenland Ice Stream to Geothermal Heat. The article is not available in BORA.
Paper 3: Smith-Johnsen, S, de Fleurian, B., Schlegel, N., Seroussi, H., Nisancioglu, K. H., Exceptionally High Geothermal Heat Flux Needed to Sustain the North- east Greenland Ice Stream. The article is not available in BORA.
container/ab/bd/2e/01/abbd2e01-b6de-443b-9bce-0600983925ed
https://hdl.handle.net/1956/21107
cristin:1745897
op_rights In copyright
http://rightsstatements.org/page/InC/1.0/
Copyright the Author. All rights reserved
_version_ 1766012113795416064

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