J
Jens Mühle
Researcher at University of California, San Diego
Publications - 114
Citations - 6959
Jens Mühle is an academic researcher from University of California, San Diego. The author has contributed to research in topics: Greenhouse gas & Trace gas. The author has an hindex of 40, co-authored 112 publications receiving 6023 citations. Previous affiliations of Jens Mühle include Scripps Institution of Oceanography & Cooperative Institute for Research in Environmental Sciences.
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Scientific Assessment of Ozone Depletion: 2010
Stephen A. Montzka,Stefan Reimann,Andreas Engel,Kirstin Krüger,William T. Sturges,Donald R. Blake,Marcel Dorf,Paul J. Fraser,Lucien Froidevaux,Kenneth W. Jucks,Karin Kreher,M. J. Kurylo,A. Mellouki,John B. Miller,Ole John Nielsen,Vladimir L. Orkin,Ronald G. Prinn,Robert C. Rhew,Michelle L. Santee,Andreas Stohl,Daniel P. Verdonik,Paul B. Krummel,E. L. Atlas,Peter F. Bernath,T. Blumenstock,James H. Butler,André Butz,Brian J. Connor,Pierre Duchatelet,Geoff S. Dutton,François Hendrick,L. J. M. Kuijpers,Emmanuel Mahieu,Andrew C. Manning,Jens Mühle,Klaus Pfeilsticker,Birgit Quack,Martin N. Ross,R. J. Salavitch,Sue M. Schauffler,Isobel J. Simpson,Darin W. Toohey,Martin K. Vollmer,Timothy J. Wallington,H. J. Wang,Ray F. Weiss,M. Yamabe,Yoko Yokouchi,Shari A. Yvon-Lewis +48 more
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Renewed growth of atmospheric methane
Matthew Rigby,Ronald G. Prinn,Paul J. Fraser,Peter Simmonds,Ray L. Langenfelds,Jian Yu Huang,Derek M. Cunnold,L. P. Steele,Paul B. Krummel,Ray F. Weiss,Simon O'Doherty,Peter K. Salameh,H. J. Wang,Christina M. Harth,Jens Mühle,L. W. Porter +15 more
TL;DR: In this article, the relative roles of an increase in emission rate or a decrease in concentration of the hydroxyl radical, the largest methane sink, are examined, along with an inverse method applied to a simple model of atmospheric chemistry and transport.
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Medusa: A Sample Preconcentration and GC/MS Detector System for in Situ Measurements of Atmospheric Trace Halocarbons, Hydrocarbons, and Sulfur Compounds
Benjamin R. Miller,Ray F. Weiss,Peter K. Salameh,Toste Tanhua,B. R. Greally,Jens Mühle,Peter Simmonds +6 more
TL;DR: A new instrument, Medusa, was developed to make the high frequency in situ measurements required for the determination of the atmospheric lifetimes and emissions of these compounds involved in ozone depletion and/or climate forcing.
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Role of atmospheric oxidation in recent methane growth
Matthew Rigby,Stephen A. Montzka,Ronald G. Prinn,James W. C. White,Dickon Young,Simon O'Doherty,Mark Lunt,Anita L. Ganesan,Alistair J. Manning,Peter Simmonds,Peter K. Salameh,Christina M. Harth,Jens Mühle,Ray F. Weiss,Paul J. Fraser,L. Paul Steele,Paul B. Krummel,Archie McCulloch,Sunyoung Park +18 more
TL;DR: It is found that it is not possible to implicate, with a high degree of confidence, rapid global CH4 emissions changes as the primary driver of recent trends when the authors' inferred OH trends and these uncertainties are considered.
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An analytical inversion method for determining regional and global emissions of greenhouse gases: Sensitivity studies and application to halocarbons
Andreas Stohl,Petra Seibert,Jgor Arduini,Sabine Eckhardt,Paul J. Fraser,B. R. Greally,Chris Rene Lunder,Michela Maione,Jens Mühle,Simon O'Doherty,Ronald G. Prinn,Stefan Reimann,Takuya Saito,Norbert Schmidbauer,Peter Simmonds,Martin K. Vollmer,Ray F. Weiss,Yoko Yokouchi +17 more
TL;DR: In this article, a new analytical inversion method was developed to determine the regional and global emissions of long-lived atmospheric trace gases, which was applied to two hydrofluorocarbons (HFC-134a, HFC-152a and a hydrochlorofluorocarbon (HCFC-22) for the period January 2005 until March 2007.