HPCCprojects:Glacier Modeling: Difference between revisions
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==Project description== | ==Project description== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">We are using a newly developed debris-covered glacier model to determine the effect of debris cover on glacier length. The model allows for fully transient advection of debris through and on top of the glacier. We are currently exploring the basic feedbacks between debris input location, erosion rate, mass balance parameterization, and glacier length.</span> | ||
==Objectives== | ==Objectives== | ||
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==Models in use== | ==Models in use== | ||
<span class="remove_this_tag">We are using 1 and 2D Matlab-based numerical glacier models. The models are used in both idealized and geographical settings with a variety of parameterizations for glacier mass balance. We are primarily using a 2D debris-covered glacier code to determine the importance of debris-cover on glacier length. Beach allows us to explore a wide parameter range efficiently and is therefore imperative for the success of this project.</span> | <span class="remove_this_tag">We are using 1 and 2D Matlab-based numerical glacier models. The models are used in both idealized and geographical settings with a variety of parameterizations for glacier mass balance. We are primarily using a 2D debris-covered glacier code to determine the importance of debris-cover on glacier length. Beach allows us to explore a wide parameter range efficiently and is therefore imperative for the success of this project. We will also be using gc2D.</span> | ||
==Results== | ==Results== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">Results are in preliminary stages, though we include some model output for your perusal.</span> | ||
[[File:Ice_dynamics_plots3.png|400px]] | |||
==Users== | ==Users== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">Leif Anderson, University of Colorado and INSTAAR</span> | ||
* <span class="remove_this_tag" | * <span class="remove_this_tag"></span> | ||
==Funding== | ==Funding== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">National Science Foundation (NSF) grant DGE- 1144083 (GRFP)</span> | ||
==Publications and presentations== | ==Publications and presentations== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">Two manuscripts are in prep. One on the effect of debris-cover on glaciers in steady state and another on the effect of debris-cover on glaciers' transient response to climate change.</span> | ||
==Links== | ==Links== |
Latest revision as of 17:18, 19 February 2018
Glacier Modeling
Project description
We are using a newly developed debris-covered glacier model to determine the effect of debris cover on glacier length. The model allows for fully transient advection of debris through and on top of the glacier. We are currently exploring the basic feedbacks between debris input location, erosion rate, mass balance parameterization, and glacier length.
Objectives
1) Determine how debris-cover effects glacier length using numerical models 2) determine how debris input location on a glacier effects glacier length
Time-line
Start: Oct 2014 - Dec 2015
Models in use
We are using 1 and 2D Matlab-based numerical glacier models. The models are used in both idealized and geographical settings with a variety of parameterizations for glacier mass balance. We are primarily using a 2D debris-covered glacier code to determine the importance of debris-cover on glacier length. Beach allows us to explore a wide parameter range efficiently and is therefore imperative for the success of this project. We will also be using gc2D.
Results
Results are in preliminary stages, though we include some model output for your perusal.
Users
Leif Anderson, University of Colorado and INSTAAR
Funding
National Science Foundation (NSF) grant DGE- 1144083 (GRFP)
Publications and presentations
Two manuscripts are in prep. One on the effect of debris-cover on glaciers in steady state and another on the effect of debris-cover on glaciers' transient response to climate change.
Links
This would be the place to provide links that are related to your project.
Choose one of the two categories mentioned below, that your project suites the best