John E. Barnes
National Oceanic and Atmospheric Administration
62 Papers
541 Citations
John E. Barnes is an academic researcher from National Oceanic and Atmospheric Administration. The author has contributed to research in topics: Lidar & Aerosol. The author has an hindex of 23, co-authored 58 publications. Previous affiliations of John E. Barnes include Climate Monitoring and Diagnostics Laboratory & University of Colorado Boulder.
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Papers
Stratospheric Aerosol--Observations, Processes, and Impact on Climate
Stefanie Kremser,Larry W. Thomason,Marc von Hobe,Markus Hermann,Terry Deshler,Claudia Timmreck,Matthew Toohey,Matthew Toohey,Andrea Stenke,Joshua P. Schwarz,Ralf Weigel,Stephan Fueglistaler,Fred Prata,Jean-Paul Vernier,Hans Schlager,John E. Barnes,Juan Carlos Antuña-Marrero,Duncan Fairlie,Mathias Palm,Emmanuel Mahieu,Justus Notholt,Markus Rex,Christine Bingen,Filip Vanhellemont,Adam Bourassa,John M. C. Plane,Daniel Klocke,Simon Carn,Lieven Clarisse,Thomas Trickl,Ryan R. Neely,Alexander D. James,Landon Rieger,James C. Wilson,Brian Meland +34 more
TL;DR: A review of the advances in stratospheric aerosol research can be found in this article, with a focus on the agreement between in situ and space-based inferences of aerosol properties during volcanically quiescent periods.
Observations of the eruption of the Sarychev volcano and simulations using the HadGEM2 climate model.
Jim Haywood,Jim Haywood,Andrew Jones,Lieven Clarisse,Adam Bourassa,John E. Barnes,Paul Telford,Nicolas Bellouin,Olivier Boucher,Paul Agnew,Cathy Clerbaux,Pierre-François Coheur,D. A. Degenstein,Peter Braesicke +13 more
TL;DR: In this paper, the authors used a nudged version of the HadGEM2 climate model to investigate how well this state-of-the-science climate model can replicate the distributions of SO2 and sulfate aerosol.
Increase in background stratospheric aerosol observed with lidar at Mauna Loa Observatory and Boulder, Colorado
David Hofmann,David Hofmann,John E. Barnes,Michael O'Neill,Michael O'Neill,Michael Trudeau,Michael Trudeau,Ryan R. Neely,Ryan R. Neely +8 more
TL;DR: In this article, an increase of 4-7% per year in the aerosol backscatter in the altitude range 20-30 km has been detected at both Mauna Loa and Boulder.
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AIRS/AMSU/HSB validation
Eric J. Fetzer,Larry M. McMillin,David C. Tobin,Hartmut H. Aumann,Michael R. Gunson,W. W. McMillan,Denise E. Hagan,M.D. Hofstadter,James G. Yoe,David N. Whiteman,John E. Barnes,Ralf Bennartz,Holger Vömel,Von P. Walden,Michael J. Newchurch,Peter J. Minnett,Robert Atlas,F. J. Schmidlin,Edward T. Olsen,Mitchell D. Goldberg,Sisong Zhou,HanJung Ding,William L. Smith,H. L. Revercomb +23 more
TL;DR: Constraint of the AIRS product uncertainties to within the claimed specification of 1 K/1 km over well-instrumented regions is feasible within 12 months of launch, but global validation of all AIRS/AMSU/HSB products may require considerably more time due to the novelty and complexity of this dataset.
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