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A. D. Del Genio
Researcher at Goddard Space Flight Center
Publications - 10
Citations - 2325
A. D. Del Genio is an academic researcher from Goddard Space Flight Center. The author has contributed to research in topics: Sea surface temperature & Atmospheric temperature. The author has an hindex of 10, co-authored 10 publications receiving 2171 citations. Previous affiliations of A. D. Del Genio include Goddard Institute for Space Studies & Columbia University.
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Journal ArticleDOI
Efficacy of climate forcings
James Hansen,James Hansen,Makiko Sato,Reto Ruedy,Larissa Nazarenko,Andrew A. Lacis,Andrew A. Lacis,Gavin A. Schmidt,Gavin A. Schmidt,Gary L. Russell,I. Aleinov,Mike Bauer,Susanne E. Bauer,N. Bell,Brian Cairns,Vittorio Canuto,Mark A. Chandler,Yu Cheng,A. D. Del Genio,A. D. Del Genio,G. Faluvegi,Eric L. Fleming,Andrew D. Friend,Timothy M. Hall,Timothy M. Hall,Charles H. Jackman,M. Kelley,Nancy Y. Kiang,D. Koch,D. Koch,Judith Lean,J. Lerner,Ken K. Lo,Surabi Menon,Ron L. Miller,Ron L. Miller,Patrick Minnis,T. Novakov,Valdar Oinas,Ja. Perlwitz,J. Perlwitz,David Rind,David Rind,Anastasia Romanou,Anastasia Romanou,Drew Shindell,Drew Shindell,Peter Stone,Shan Sun,Shan Sun,N. Tausnev,D. Thresher,Bruce A. Wielicki,Takmeng Wong,Mao-Sung Yao,S. Zhang +55 more
TL;DR: The authors used a global climate model to compare the effectiveness of many climate forcing agents for producing climate change and found that replacing traditional instantaneous and adjusted forcings with an easily computed alternative, Fs, yields a better predictor of climate change, i.e., its efficacies are closer to unity.
Journal ArticleDOI
Cloud feedback in atmospheric general circulation models: An update
Robert D. Cess,Minghua Zhang,William Ingram,Gerald L. Potter,V. Alekseev,Howard W. Barker,E. Cohen-Solal,Robert Colman,D. A. Dazlich,A. D. Del Genio,Martin Dix,V. P. Dymnikov,Monika Esch,Laura D. Fowler,J. R. Fraser,V. Galin,W. L. Gates,James J. Hack,Jeffrey T. Kiehl,H. Le Treut,Ken K. Lo,B. J. McAvaney,V. P. Meleshko,Jean-Jacques Morcrette,David A. Randall,Erich Roeckner,Jean-François Royer,Michael E. Schlesinger,P. V. Sporyshev,Bertrand Timbal,Evgeny Volodin,Karl E. Taylor,Wanqiu Wang,R. T. Wetherald +33 more
TL;DR: The authors compared the climate sensitivity of 19 atmospheric general circulation models and found a roughly threefold variation among the models; most of this variation was attributed to differences in the models' depictions of cloud feedback.
Journal ArticleDOI
Structure and circulation of the Venus atmosphere
Gerald Schubert,Curtis Covey,A. D. Del Genio,L. S. Elson,Gerald M. Keating,Alvin Seiff,Richard E. Young,Jay Apt,Charles C. Counselman,Arvydas J. Kliore,Sanjay S. Limaye,Henry E. Revercomb,Lawrence A. Sromovsky,Verner E. Suomi,Fredric W. Taylor,Richard Woo,U. von Zahn +16 more
TL;DR: The Pioneer Venus data relevant to the dynamics and thermodynamics of the atmosphere is summarized and interpreted in this paper, where the authors summarize and interpret the Pioneer Venus observations relevant to both the day and night side.
Journal ArticleDOI
Future climate change under RCP emission scenarios with GISS ModelE2
Larissa Nazarenko,Gavin A. Schmidt,Ron L. Miller,N. Tausnev,M. Kelley,Reto Ruedy,Gary L. Russell,Igor Aleinov,Mike Bauer,Mike Bauer,S. E. Bauer,Rainer Bleck,Vittorio Canuto,Y. Cheng,Tom Clune,A. D. Del Genio,Greg Faluvegi,James Hansen,R. J. Healy,N. Y. Kiang,Dorothy Koch,Andrew A. Lacis,Allegra N. LeGrande,J. Lerner,K. W. K. Lo,Surabi Menon,V. Oinas,Jan P. Perlwitz,Jan P. Perlwitz,Michael J. Puma,David Rind,Anastasia Romanou,Anastasia Romanou,Makiko Sato,Drew Shindell,Shan Sun,K. Tsigaridis,Nadine Unger,Apostolos Voulgarakis,Mao-Sung Yao,Jinlun Zhang +40 more
TL;DR: In this article, the authors examined the anthropogenically forced climate response for the 21st century representative concentration pathway (RCP) emission scenarios and their extensions for the period 2101-2500.
Journal ArticleDOI
Intercomparison and interpretation of surface energy fluxes in atmospheric general circulation models
David A. Randall,Robert D. Cess,J. P. Blanchet,George J. Boer,D. A. Dazlich,A. D. Del Genio,Michel Déqué,V. P. Dymnikov,V. Galin,Steven J. Ghan,Andrew A. Lacis,H. Le Treut,Z. X. Li,Xin-Zhong Liang,B. J. McAvaney,V. P. Meleshko,John F. B. Mitchell,J.-J. Morcrette,Gerald L. Potter,L. Rikus,Erich Roeckner,Jean-François Royer,U. Schlese,D. A. Sheinin,Julia Slingo,A. P. Sokolov,Karl E. Taylor,Warren M. Washington,R. T. Wetherald,I. Yagai,Minghua Zhang +30 more
TL;DR: In this article, the responses of the surface energy budgets and hydrologic cycles of 19 atmospheric general circulation models to an imposed, globally uniform sea surface temperature perturbation of 4 K were analyzed.