F
Fanrong Zeng
Researcher at Geophysical Fluid Dynamics Laboratory
Publications - 83
Citations - 8432
Fanrong Zeng is an academic researcher from Geophysical Fluid Dynamics Laboratory. The author has contributed to research in topics: Climate model & Sea surface temperature. The author has an hindex of 38, co-authored 72 publications receiving 7449 citations. Previous affiliations of Fanrong Zeng include National Oceanic and Atmospheric Administration & Princeton University.
Papers
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Journal ArticleDOI
GFDL's CM2 global coupled climate models. Part I: Formulation and simulation characteristics
Thomas L. Delworth,Anthony J. Broccoli,Anthony Rosati,Ronald J. Stouffer,Venkatramani Balaji,John A. Beesley,William Cooke,Keith W. Dixon,John P. Dunne,Krista A. Dunne,Jeffrey W. Durachta,Kirsten L. Findell,Paul Ginoux,Anand Gnanadesikan,C. T. Gordon,Stephen M. Griffies,Rich Gudgel,Matthew Harrison,Isaac M. Held,Richard S. Hemler,Larry W. Horowitz,Stephen A. Klein,Stephen A. Klein,Thomas R. Knutson,Paul J. Kushner,A. R. Langenhorst,Hyun Chul Lee,Shian-Jiann Lin,Jian Lu,Sergey Malyshev,Paul C.D. Milly,Venkatachalam Ramaswamy,Joellen L. Russell,M. Daniel Schwarzkopf,Elena Shevliakova,Joseph J. Sirutis,Michael J. Spelman,W. Stern,Michael Winton,Andrew T. Wittenberg,Bruce Wyman,Fanrong Zeng,Rong Zhang +42 more
TL;DR: In this paper, the formulation and simulation characteristics of two new global coupled climate models developed at NOAA's Geophysical Fluid Dynamics Laboratory (GFDL) are described and two versions of the coupled model are described.
Journal ArticleDOI
The dynamical core, physical parameterizations, and basic simulation characteristics of the atmospheric component AM3 of the GFDL global coupled model CM3
Leo J. Donner,Bruce Wyman,Richard S. Hemler,Larry W. Horowitz,Yi Ming,Ming Zhao,Jean-Christophe Golaz,Paul Ginoux,Shian-Jiann Lin,M. Daniel Schwarzkopf,John Austin,Ghassan J. Alaka,William Cooke,Thomas L. Delworth,S. M. Freidenreich,C. T. Gordon,Stephen M. Griffies,Isaac M. Held,William J. Hurlin,Stephen A. Klein,Thomas R. Knutson,A. R. Langenhorst,Hyun Chul Lee,Yanluan Lin,Brian I. Magi,Sergey Malyshev,Paul C.D. Milly,Vaishali Naik,Mary Jo Nath,Robert Pincus,Jeffrey J. Ploshay,Venkatachalam Ramaswamy,Charles J. Seman,Elena Shevliakova,Joseph J. Sirutis,W. Stern,Ronald J. Stouffer,R. John Wilson,Michael Winton,Andrew T. Wittenberg,Fanrong Zeng +40 more
TL;DR: This paper developed a coupled general circulation model (CM3) for the atmosphere, oceans, land, and sea ice to address emerging issues in climate change, including aerosol-cloud interactions, chemistry-climate interactions, and coupling between the troposphere and stratosphere.
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
Probing the Fast and Slow Components of Global Warming by Returning Abruptly to Preindustrial Forcing
Isaac M. Held,Michael Winton,Ken Takahashi,Thomas L. Delworth,Fanrong Zeng,Geoffrey K. Vallis +5 more
TL;DR: In this article, the fast and slow components of global warming in a comprehensive climate model are isolated by examining the response to an instantaneous return to preindustrial forcing, characterized by an initial fast exponential decay with an e-folding time smaller than 5 yr, leaving behind a remnant that evolves more slowly.
Journal ArticleDOI
On the Seasonal Forecasting of Regional Tropical Cyclone Activity
Gabriel A. Vecchi,Thomas L. Delworth,Richard Gudgel,Sarah B. Kapnick,Anthony Rosati,Andrew T. Wittenberg,Fanrong Zeng,Whit G. Anderson,Venkatramani Balaji,Keith W. Dixon,Liwei Jia,Hyeong-Seog Kim,Lakshmi Krishnamurthy,Rym Msadek,W. Stern,Seth Underwood,Gabriele Villarini,Xiaosong Yang,Shaoqing Zhang +18 more
TL;DR: In this article, a new high-resolution global climate model was developed to forecast seasonal tropical cyclone activity on spatial scales finer than basinwide, from months and seasons in advance of the TC season.