HPCCprojects:Latest Holocene Glacier Modeling: Difference between revisions
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==Project description== | ==Project description== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">In this project we are employing a simple glacier model constrained by observational data to reconstruct both glacier fluctuations and the associated climate changes over the last 2,000 years for a glacier in the Canadian Arctic</span> | ||
==Objectives== | ==Objectives== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">The main objectives are to faithfully reconstruct observed glacier fluctuations and determine the required climate changes needed over the last 2,000 years.</span> | ||
==Time-line== | ==Time-line== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">Fall 2016 - Ongoing</span> | ||
==Models in use== | ==Models in use== | ||
<span class="remove_this_tag"> | <span class="remove_this_tag">User developed 2D finite-element numerical glacial model driven by a climate defined by the Positive Degree Day (PDD) method and allowing for Solar insulation induced melt.</span> | ||
==Results== | ==Results== | ||
Revision as of 14:17, 1 September 2016
Latest Holocene Glacier Modeling
Project description
In this project we are employing a simple glacier model constrained by observational data to reconstruct both glacier fluctuations and the associated climate changes over the last 2,000 years for a glacier in the Canadian Arctic
Objectives
The main objectives are to faithfully reconstruct observed glacier fluctuations and determine the required climate changes needed over the last 2,000 years.
Time-line
Fall 2016 - Ongoing
Models in use
User developed 2D finite-element numerical glacial model driven by a climate defined by the Positive Degree Day (PDD) method and allowing for Solar insulation induced melt.
Results
List the results of your project
Users
List the CSDMS HPCC users of your project:
- <name HPCCuser>
Funding
Funding Provided in part by NSF Award # 1204096
Publications and presentations
Manuscript under progress and presentation at GSA 2016
Links
Category
Research Project
