Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams

Ice streams in Antarctica are known to move ice rapidly, in a narrow band, over a loose permeable substrate to the sea- contributing to sea-level rise and the decay of the Antarctic Ice Sheet. It has been observed that some of these ice streams move in a “stick-slip” fashion, lurching ahead small st...

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Main Author: McBrearty, Ian
Format: Text
Language:unknown
Published: Iowa State University Digital Repository 2015
Subjects:
Glaciology
Antarctic
The Antarctic
Antarc*
Antarctica
Ice Sheet
Online Access:https://lib.dr.iastate.edu/undergradresearch_symposium/2015/presentations/19
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=1107&context=undergradresearch_symposium
id ftiowastateuniv:oai:lib.dr.iastate.edu:undergradresearch_symposium-1107
record_format openpolar
spelling ftiowastateuniv:oai:lib.dr.iastate.edu:undergradresearch_symposium-1107 2023-05-15T14:03:05+02:00 Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams McBrearty, Ian 2015-04-14T18:00:00Z application/pdf https://lib.dr.iastate.edu/undergradresearch_symposium/2015/presentations/19 https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=1107&context=undergradresearch_symposium unknown Iowa State University Digital Repository https://lib.dr.iastate.edu/undergradresearch_symposium/2015/presentations/19 https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=1107&context=undergradresearch_symposium Symposium on Undergraduate Research and Creative Expression Glaciology text 2015 ftiowastateuniv 2018-11-25T22:29:18Z Ice streams in Antarctica are known to move ice rapidly, in a narrow band, over a loose permeable substrate to the sea- contributing to sea-level rise and the decay of the Antarctic Ice Sheet. It has been observed that some of these ice streams move in a “stick-slip” fashion, lurching ahead small steps at a time. Past workers have proposed this observation is indicative of temporal strengthening in the ice stream when it’s sitting at rest, but have not satisfactorily concluded which components of the glacial system are directly causing the strengthening. To understand the mechanics dictating ice stream motion, and in turn put better constraints on predictions regarding the continued decay of the Antarctic Ice Sheet, we have resorted to experimentally recreating the sub-glacial system in the lab, in two “ringshear” devices designed by Dr. Iverson at Iowa State University. Two main questions we wanted answered were: (A) “Do we observe a significant relationship between hold time and strengthening?” and (B) “Which component(s) (ice, water, and sediment) contribute to the strengthening, and by how much does each contribute?” To do this we ran a suite of “slide-hold-slide” experiments, in each case adding one more component of the glacial system, where time held still (corresponding to the “stick” phase of motion), was measured against the maximum strength the material achieved upon forcing it to undergo further shear (corresponding to the “slip” phase of motion). Our results indicate that there is indeed a significant relationship between hold times and strengthening, and that all three components (ice, water, sediment) contribute to strengthening- however, with each component contributing differently depending on how long of a hold time they have undergone. These results are in agreement with first order physical principles, but further work is required to develop the mathematical relationships relating strengthening to hold time for each component of the system. Text Antarc* Antarctic Antarctica Ice Sheet Digital Repository @ Iowa State University Antarctic The Antarctic
institution Open Polar
collection Digital Repository @ Iowa State University
op_collection_id ftiowastateuniv
language unknown
topic Glaciology
spellingShingle Glaciology
McBrearty, Ian
Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
topic_facet Glaciology
description Ice streams in Antarctica are known to move ice rapidly, in a narrow band, over a loose permeable substrate to the sea- contributing to sea-level rise and the decay of the Antarctic Ice Sheet. It has been observed that some of these ice streams move in a “stick-slip” fashion, lurching ahead small steps at a time. Past workers have proposed this observation is indicative of temporal strengthening in the ice stream when it’s sitting at rest, but have not satisfactorily concluded which components of the glacial system are directly causing the strengthening. To understand the mechanics dictating ice stream motion, and in turn put better constraints on predictions regarding the continued decay of the Antarctic Ice Sheet, we have resorted to experimentally recreating the sub-glacial system in the lab, in two “ringshear” devices designed by Dr. Iverson at Iowa State University. Two main questions we wanted answered were: (A) “Do we observe a significant relationship between hold time and strengthening?” and (B) “Which component(s) (ice, water, and sediment) contribute to the strengthening, and by how much does each contribute?” To do this we ran a suite of “slide-hold-slide” experiments, in each case adding one more component of the glacial system, where time held still (corresponding to the “stick” phase of motion), was measured against the maximum strength the material achieved upon forcing it to undergo further shear (corresponding to the “slip” phase of motion). Our results indicate that there is indeed a significant relationship between hold times and strengthening, and that all three components (ice, water, sediment) contribute to strengthening- however, with each component contributing differently depending on how long of a hold time they have undergone. These results are in agreement with first order physical principles, but further work is required to develop the mathematical relationships relating strengthening to hold time for each component of the system.
format Text
author McBrearty, Ian
author_facet McBrearty, Ian
author_sort McBrearty, Ian
title Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
title_short Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
title_full Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
title_fullStr Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
title_full_unstemmed Experimental Recreation of the Sub-Glacial System, an Analysis of Hold Time versus Strengthening to Shed Light on the Mechanics of Stick-Slip Ice Streams
title_sort experimental recreation of the sub-glacial system, an analysis of hold time versus strengthening to shed light on the mechanics of stick-slip ice streams
publisher Iowa State University Digital Repository
publishDate 2015
url https://lib.dr.iastate.edu/undergradresearch_symposium/2015/presentations/19
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=1107&context=undergradresearch_symposium
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
Antarctica
Ice Sheet
genre_facet Antarc*
Antarctic
Antarctica
Ice Sheet
op_source Symposium on Undergraduate Research and Creative Expression
op_relation https://lib.dr.iastate.edu/undergradresearch_symposium/2015/presentations/19
https://lib.dr.iastate.edu/cgi/viewcontent.cgi?article=1107&context=undergradresearch_symposium
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