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tadd AGU 2021 post - adamsgaard.dk - my academic webpage |
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git clone git://src.adamsgaard.dk/adamsgaard.dk |
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commit ce993c6767b00b7e4900c6aa6ddab028b1ad6367 |
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parent 6d4eb44c62db0ba92fe44739d4927a7c4ca88cd6 |
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Author: Anders Damsgaard <[email protected]> |
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Date: Sun, 12 Dec 2021 21:21:01 +0100 |
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add AGU 2021 post |
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A pages/012-agu2021.cfg | 7 +++++++ |
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A pages/012-agu2021.html | 50 +++++++++++++++++++++++++++++… |
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A pages/012-agu2021.txt | 43 ++++++++++++++++++++++++++++++ |
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diff --git a/pages/012-agu2021.cfg b/pages/012-agu2021.cfg |
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+filename=agu2021.html |
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+title=AGU 2021: Process-based modeling of glacial till advection |
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+description=Recorded talk for American Geophysical Union 2021 Fall Meeting |
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+id=agu2021 |
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+tags=science, glaciology, ice sheet |
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+created=2021-12-12 |
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+updated=2021-12-12 |
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diff --git a/pages/012-agu2021.html b/pages/012-agu2021.html |
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t@@ -0,0 +1,50 @@ |
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+<p> Below is my recorded talk for the <a |
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+href="https://www.agu.org/Fall-Meeting">American Geophysical Union 2021 Fall M… |
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+Full abstract:</p> |
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+ |
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+<blockquote> |
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+<b>Title: Process-based modeling of glacial till advection</b> |
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+<br><br> |
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+Anders Damsgaard(1), Jan A. Piotrowski(1), Ian Madden(2), Jenny Suckale(2), Ke… |
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+<br><br> |
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+1: Department of Geoscience, Aarhus University, Denmark |
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+<br> |
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+2: Department of Geophysics, Stanford University, CA, USA |
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+<br> |
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+3: Department of Civil and Architectural Engineering, Aarhus University, Denma… |
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+<br><br> |
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+Glacial flow can reshape the Earth surface through erosion and |
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+deposition. Many past and present ice sheets lie on soft beds, and till |
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+mobilization and transport is governed by the degree of basal coupling, |
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+fluctuations in thermal state, subglacial hydrology, and the mechanics of |
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+the basal till itself. Changes in basal topography due to ice movement |
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+could theoretically feed back onto ice-flow dynamics. For example, |
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+the buildup of sedimentary grounding-zone wedges at the marine termini |
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+of ice streams may stabilize their position against local sea-level |
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+change. However, modeling of subglacial till advection has previously |
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+relied on fluid-like rheologies, which contrasts the now established |
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+concensus of Mohr-Coulomb plasticity. |
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+<br><br> |
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+In our work, we aim to improve the parameterization of till advection by |
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+glacial flow. We compare a new continuum model for till against laboratory |
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+consolidation and ring-shear experiments. We show how transient dynamics |
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+in porosity and strength affect the mechanics under non-steady forcings, |
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+such as glacier stick-slip or surge. We couple the till continuum model |
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+to an ice-stream model, and demonstrate how till transport varies when |
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+ice flows over simple soft-bed basal geometries, and affects ice-stream |
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+sensitivity to external forcings.</blockquote> |
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+ |
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+ |
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+<p>Slides and video:</p> |
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+ |
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+<ul> |
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+<li><a href="npub/agu2021-damsgaard.pdf">slides (pdf)</a></li> |
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+</ul> |
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+ |
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+<center> |
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+ <video poster="video/agu2021-damsgaard.jpg" |
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+ controls preload="none" class="mediaframe"> |
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+ <source src="video/agu2021-damsgaard.mp4" type="video/mp4"> |
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+ <a href="video/agu2021-damsgaard.mp4">Link</a> |
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+ </video> |
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+</center> |
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diff --git a/pages/012-agu2021.txt b/pages/012-agu2021.txt |
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t@@ -0,0 +1,43 @@ |
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+Below is my recorded talk for the [1]American Geophysical Union 2021 Fall |
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+Meeting. Full abstract: |
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+ |
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+ Title: Process-based modeling of glacial till advection |
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+ |
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+ Anders Damsgaard(1), Jan A. Piotrowski(1), Ian Madden(2), Jenny Suckale(2), |
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+ Kenny K. Sørensen(3) |
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+ |
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+ 1: Department of Geoscience, Aarhus University, Denmark |
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+ 2: Department of Geophysics, Stanford University, CA, USA |
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+ 3: Department of Civil and Architectural Engineering, Aarhus University, |
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+ Denmark |
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+ |
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+ Glacial flow can reshape the Earth surface through erosion and deposition. |
|
+ Many past and present ice sheets lie on soft beds, and till mobilization |
|
+ and transport is governed by the degree of basal coupling, fluctuations in |
|
+ thermal state, subglacial hydrology, and the mechanics of the basal till |
|
+ itself. Changes in basal topography due to ice movement could theoretically |
|
+ feed back onto ice-flow dynamics. For example, the buildup of sedimentary |
|
+ grounding-zone wedges at the marine termini of ice streams may stabilize |
|
+ their position against local sea-level change. However, modeling of |
|
+ subglacial till advection has previously relied on fluid-like rheologies, |
|
+ which contrasts the now established concensus of Mohr-Coulomb plasticity. |
|
+ |
|
+ In our work, we aim to improve the parameterization of till advection by |
|
+ glacial flow. We compare a new continuum model for till against laboratory |
|
+ consolidation and ring-shear experiments. We show how transient dynamics in |
|
+ porosity and strength affect the mechanics under non-steady forcings, such |
|
+ as glacier stick-slip or surge. We couple the till continuum model to an |
|
+ ice-stream model, and demonstrate how till transport varies when ice flows |
|
+ over simple soft-bed basal geometries, and affects ice-stream sensitivity |
|
+ to external forcings. |
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+ |
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+Slides and video: |
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+ |
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+ - slides: gopher://adamsgaard.dk/9/npub/agu2021-damsgaard.pdf |
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+ - video: https://adamsgaard.dk/video/agu2021-damsgaard.mp4 |
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+ |
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+References: |
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+ |
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+[1] https://www.agu.org/Fall-Meeting |
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+[2] file:///home/ad/code/adamsgaard.dk/pages/npub/agu2021-damsgaard.pdf |
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+[3] file:///home/ad/code/adamsgaard.dk/pages/video/agu2021-damsgaard.mp4 |
