R
Rusty Benson
Researcher at Geophysical Fluid Dynamics Laboratory
Publications - 10
Citations - 1265
Rusty Benson is an academic researcher from Geophysical Fluid Dynamics Laboratory. The author has contributed to research in topics: Climate model & Telescoping series. The author has an hindex of 7, co-authored 8 publications receiving 1053 citations.
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Journal ArticleDOI
Simulated Climate and Climate Change in the GFDL CM2.5 High-Resolution Coupled Climate Model
Thomas L. Delworth,Anthony Rosati,Whit G. Anderson,Alistair Adcroft,Venkatramani Balaji,Rusty Benson,Keith W. Dixon,Stephen M. Griffies,Hyun Chul Lee,R. C. Pacanowski,Gabriel A. Vecchi,Andrew T. Wittenberg,Fanrong Zeng,Rong Zhang +13 more
TL;DR: This article presented results for simulated climate and climate change from a newly developed high-resolution global climate model [Geophysical Fluid Dynamics Laboratory Climate Model version 2.5 (GFDL CM2.5)] with an atmospheric resolution of approximately 50 km in the horizontal, with 32 vertical levels.
Journal ArticleDOI
Impacts on Ocean Heat from Transient Mesoscale Eddies in a Hierarchy of Climate Models
Stephen M. Griffies,Michael Winton,Whit G. Anderson,Rusty Benson,Thomas L. Delworth,Carolina O. Dufour,John P. Dunne,Paul Goddard,Adele K. Morrison,Anthony Rosati,Andrew T. Wittenberg,Jianjun Yin,Rong Zhang +12 more
TL;DR: In this paper, a suite of centennial-scale 1990 radiatively forced numerical climate simulations from three GFDL coupled models comprising the Climate Model, version 2.0-Ocean (CM2-O), model suite is used to characterize impacts on heat in the ocean climate system from transient ocean mesoscale eddies.
Impacts on Ocean Heat from Transient Mesoscale Eddies in a Hierarchy of Climate Models
Stephen M. Griffies,Michael Winton,Whit G. Anderson,Rusty Benson,Thomas L. Delworth,Carolina O. Dufour,John P. Dunne,Paul Goddard,Adele K. Morrison,Anthony Rosati,Andrew T. Wittenberg,Jianjun Yin,Rong Zhang +12 more
TL;DR: In this paper, a suite of centennial-scale 1990 radiatively forced numerical climate simulations from three GFDL coupled models comprising the Climate Model, version 2.0-Ocean (CM2-O), model suite is used to characterize impacts on heat in the ocean climate system from transient ocean mesoscale eddies.
Journal ArticleDOI
The GFDL Global Atmosphere and Land Model AM4.0/LM4.0: 2. Model Description, Sensitivity Studies, and Tuning Strategies
Ming Zhao,Jean-Christophe Golaz,Isaac M. Held,Huan Guo,Venkatramani Balaji,Rusty Benson,Jan-Huey Chen,Xi Chen,Leo J. Donner,John P. Dunne,Krista A. Dunne,J. Durachta,Song-Miao Fan,S. M. Freidenreich,Stephen T. Garner,Paul Ginoux,Lucas M. Harris,Larry W. Horowitz,John P. Krasting,A. R. Langenhorst,Zhi Liang,Pu Lin,Shian-Jiann Lin,Sergey Malyshev,Erik Mason,Paul C.D. Milly,Yi Ming,Vaishali Naik,Fabien Paulot,David Paynter,Peter J. Phillipps,Aparna Radhakrishnan,Venkatachalam Ramaswamy,T. Robinson,Daniel M Schwarzkopf,Charles J. Seman,Elena Shevliakova,Zhaoyi Shen,Hyeyum Hailey Shin,Levi G. Silvers,J. R. Wilson,Michael Winton,Andrew T. Wittenberg,Bruce Wyman,Baoqiang Xiang +44 more
TL;DR: In this article, a version of the AM4.0/LM 4.0 atmosphere/land model that will serve as a base for a new set of climate and Earth system models (CM4 and ESM4) is presented.
Journal ArticleDOI
GFDL SHiELD: A Unified System for Weather-to-Seasonal Prediction
Lucas M. Harris,Linjiong Zhou,Linjiong Zhou,Shian-Jiann Lin,Jan-Huey Chen,Jan-Huey Chen,Xi Chen,Xi Chen,Kun Gao,Kun Gao,Matthew Morin,Matthew Morin,Shannon L. Rees,Shannon L. Rees,Yongqiang Sun,Yongqiang Sun,Mingjing Tong,Mingjing Tong,Baoqiang Xiang,Baoqiang Xiang,Morris A. Bender,Morris A. Bender,Rusty Benson,Kai-Yuan Cheng,Kai-Yuan Cheng,Spencer K. Clark,Spencer K. Clark,Oliver D. Elbert,Oliver D. Elbert,Andrew Hazelton,Andrew Hazelton,Andrew Hazelton,J. Jacob Huff,J. Jacob Huff,Alex Kaltenbaugh,Alex Kaltenbaugh,Zhi Liang,Timothy Marchok,Hyeyum Hailey Shin,Hyeyum Hailey Shin,W. Stern +40 more
TL;DR: The System for High-resolution Prediction on Earth-to-Local Domains (SHiELD) as mentioned in this paper is an atmosphere model coupling the nonhydrostatic FV3 Dynamical Core to a physics suite originally taken from the Earth to Local Domain (E2LD) project.