D
Daniel R. Marsh
Researcher at National Center for Atmospheric Research
Publications - 205
Citations - 13721
Daniel R. Marsh is an academic researcher from National Center for Atmospheric Research. The author has contributed to research in topics: Atmosphere & Stratosphere. The author has an hindex of 52, co-authored 196 publications receiving 11097 citations. Previous affiliations of Daniel R. Marsh include University of California, Berkeley & High Altitude Observatory.
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Journal ArticleDOI
The Community Earth System Model: A Framework for Collaborative Research
James W. Hurrell,Marika M. Holland,Peter R. Gent,Steven J. Ghan,Jennifer E. Kay,Paul J. Kushner,Jean-Francois Lamarque,William G. Large,David M. Lawrence,Keith Lindsay,William H. Lipscomb,Matthew C. Long,Natalie M. Mahowald,Daniel R. Marsh,Richard Neale,Philip J. Rasch,S. J. Vavrus,M. Vertenstein,David C. Bader,William D. Collins,James J. Hack,Jeffrey T. Kiehl,Shawn J. Marshall +22 more
TL;DR: The Community Earth System Model (CESM) as discussed by the authors is a community tool used to investigate a diverse set of Earth system interactions across multiple time and space scales, including biogeochemical cycles, a variety of atmospheric chemistry options, the Greenland Ice Sheet, and an atmosphere that extends to the lower thermosphere.
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Climate Change from 1850 to 2005 Simulated in CESM1(WACCM)
Daniel R. Marsh,Michael J. Mills,Douglas E. Kinnison,Jean-Francois Lamarque,Natalia Calvo,Lorenzo M. Polvani +5 more
TL;DR: In this article, an ensemble of transient simulations using the NCAR Community Earth System Model (CESM) was conducted as part of phase 5 of the Coupled Model Intercomparison Project.
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Simulation of secular trends in the middle atmosphere, 1950–2003
TL;DR: In this paper, the authors used the Whole Atmosphere Community Climate Model to produce a small ensemble of simulations of the period 1950-2003, comparing the model results with available observations, showing that for the most part, the model is able to reproduce well the observed trends in zonal mean temperature and ozone, both as regards their magnitude and their distribution in latitude and altitude.
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Assessment of temperature, trace species, and ozone in chemistry-climate model simulations of the recent past
Veronika Eyring,N. Butchart,Darryn W. Waugh,Hideharu Akiyoshi,John Austin,Slimane Bekki,Greg Bodeker,Byron A. Boville,Ch. Brühl,Martyn P. Chipperfield,Eugene C. Cordero,Martin Dameris,Makoto Deushi,Vitali Fioletov,Stacey M. Frith,Rolando R. Garcia,Andrew Gettelman,Marco Giorgetta,Volker Grewe,L. Jourdain,Douglas E. Kinnison,Eva Mancini,Elisa Manzini,Marion Marchand,Daniel R. Marsh,Tatsuya Nagashima,Paul A. Newman,J. E. Nielsen,Steven Pawson,Giovanni Pitari,David A. Plummer,Eugene Rozanov,M. Schraner,Theodore G. Shepherd,Kiyotaka Shibata,Richard S. Stolarski,H. Struthers,W. Tian,Motoyoshi Yoshiki +38 more
TL;DR: In this article, simulations of the stratosphere from thirteen coupled chemistry-climate models (CCMs) are evaluated to provide guidance for the interpretation of ozone predictions made by the same CCMs.
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Sensitivity of chemical tracers to meteorological parameters in the MOZART-3 chemical transport model
Douglas E. Kinnison,Guy Brasseur,Stacy Walters,Rolando R. Garcia,Daniel R. Marsh,Fabrizio Sassi,V. L. Harvey,Cora E. Randall,Louisa K. Emmons,Jean-Francois Lamarque,Peter Hess,John J. Orlando,X. Tie,William J. Randel,Laura L. Pan,Andrew Gettelman,Claire Granier,Claire Granier,Thomas Diehl,Ulrike Niemeier,Adrian Simmons +20 more
TL;DR: In this article, the authors used the Model for Ozone and Related Chemical Tracers, version 3 (MOZART-3) to evaluate the representation of long-lived tracers and ozone using three different meteorological fields.