User:Syvitski: Difference between revisions
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Professor James P.M. Syvitski | {{Signup information member | ||
|First name member=James | |||
|Last name member=Syvitski | |||
|Institute - Organization member=University of Colorado - Boulder | |||
|Department member=CSDMS | |||
|Postal address 1 member="545 UCB, 3100 Marine St." | |||
|Postal address 2 member= | |||
|Town - City member=Boulder | |||
|Postal code member=80309-0545 | |||
|State member=Colordao | |||
|Country member=USA | |||
|Confirm email member=james.syvitski@colorado.edu | |||
|Work phone member=303.735.5484 | |||
|Cell phone member= | |||
|Fax member= | |||
|Research - personal website member=http://instaar.colorado.edu/people/bios/syvitski.html | |||
|Working group member= | |||
|Focus research group member= | |||
|Description of your CSDMS-related interests member= | |||
|How did you learn about CSDMS member= | |||
}} | |||
=Professor James P.M. Syvitski= | |||
'''Active Positions''' | '''Active Positions''' |
Revision as of 09:07, 11 November 2009
"Colordao" is not in the list (NO STATE, Alabama, Alaska, Arizona, Arkansas, California, Colorado, Connecticut, District of Columbia, Delaware, ...) of allowed values for the "State member" property."USA" is not in the list (Afghanistan, Albania, Algeria, Andorra, Angola, Antigua and Barbuda, Argentina, Armenia, Australia, Austria, ...) of allowed values for the "Country member" property.
James Syvitski, website username login: Syvitski
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Member of the following CSDMS groups
Signed up for the mailing list:
Professor James P.M. Syvitski
Active Positions
Executive Director, of CSDMS — Community Surface Dynamics Modeling System
Fellow, Institute of Arctic and Alpine Research (U. Colorado)
Director, Environmental Computation and Imaging Facility (U. Colorado)
Professor of Geological Sciences (U. Colorado)
Professor of Geophysics (U. Colorado)
Professor of Hydrological Sciences (U. Colorado)
Professor of Oceanography (U. Colorado)
Research Mission Advance and couple algorithms that describe the earth’s evolving landscape and seascape, and the sedimentary deposits that they create, using advanced computational tools to:
characterize climate-ocean-landscape interactions, across highly dynamic and deforming boundaries,
characterize emergent large-scale behavior of erosion-sedimentation processes operating at small scales,
verify and apply these integrated earth system models to societal issues facing our nation.