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home · events · colloquia · 2007-2008 · 
 

Colloquium - Ringler

 
1/29/2008
9:30am-10:30am
NCAR

Bridging Scales in Climate System Modeling
Los Alamos National Laboratory

In the coming decade and beyond, the climate modeling community will be challenged to resolve scales and processes that are far beyond its current scope. The challenge to resolve these small scales and new processes will arise primarily for two reasons. The first reason is that there are likely to be currently unresolved processes that have a significant influence on the global climate system. Examples of this might include ice streams (O(km)) within large-scale ice sheets, ice shelves (O(km)) collapsing due to interaction with ocean processes, and the dependence of ocean biochemistry on ocean eddy (O(10 km)) activity. The second reason for this challenge is the desire to quantitatively characterize the regional-scale signature of anthroprogenic climate change. An example close to home is the climate-change driven impacts to hydrological processes (O(km)) in the western United States.

The ability to resolve the scales noted above throughout the relevant climate system component is beyond the current computing capacity of even the most powerful computer available today. Basic scaling arguments of computer resources available into the future indicate that this will remain true for at least the next two decades. In this talk I will outline the approaches we might take to accommodate these relevant processes, yet retain a computationally-tractable climate system model. In particular, I will compare and contrast the approach of nesting with the approach of variable resolution. When accompanied by typical finite-volume methods, both approaches lead, somewhat counter-intuitively, to an increase in local truncation error as the price-to-be-paid for regional resolution. If left unchecked, the truncation error may, in fact, completely swamp the benefit of regional resolution. Within the context of the shallow-water system, I will propose techniques to constrain the damage caused by these locally-large truncation errors. The possible paths forward to incorporate these ideas onto IPCC-class ocean and ice sheet models will be discussed.

This talk is sponsored by the National Center for Atmospheric Research Institute for Mathematics Applied to Geosciences (IMAGe) and will be held in the Main Seminar Room at the Mesa Lab.


The Department holds colloquia throughout the Fall and Spring semesters. These colloquia, open to the public, are typically held on Thursday afternoons, but sometimes occur at other times as well. If you would like to receive email notification of upcoming colloquia, subscribe to our Colloquia Mailing List. If you would like to schedule a colloquium, see Colloquium Scheduling.

Sign language interpreters are available upon request. Please contact Stephanie Morris at least five days prior to the colloquium.

 
See also:
Department of Computer Science
College of Engineering and Applied Science
University of Colorado Boulder
Boulder, CO 80309-0430 USA
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