P
Paul O. Wennberg
Researcher at California Institute of Technology
Publications - 421
Citations - 35598
Paul O. Wennberg is an academic researcher from California Institute of Technology. The author has contributed to research in topics: Total Carbon Column Observing Network & Isoprene. The author has an hindex of 96, co-authored 398 publications receiving 30122 citations. Previous affiliations of Paul O. Wennberg include National Oceanic and Atmospheric Administration & Harvard University.
Papers
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A Global Survey of Submicron Aerosol Acidity (pH)
Benjamin A. Nault,Douglas A. Day,Pedro Campuzano-Jost,W. Hu,Brett B. Palm,Jason C. Schroder,Roya Bahreini,H. Bian,M. Chin,Simon L. Clegg,Peter R. Colarco,John D. Crounse,Jack E. Dibb,Michelle J. Kim,John K. Kodros,Felipe D. Lopez-Hilfiker,Eloise A. Marais,Ann M. Middlebrook,J. A. Neuman,John B. Nowak,Jeffrey R. Pierce,Eric Scheuer,Joel A. Thornton,Patrick R. Veres,Paul O. Wennberg,Jose-Luis Jimenez +25 more
The deuterium anomaly in stratospheric molecular hydrogen
Thom Rahn,John M. Eiler,Michael C. McCarthy,Kristie A. Boering,Paul O. Wennberg,E. L. Atlas,Sue M. Schauffler +6 more
TL;DR: In this article, the second most abundant reduced gas in the atmosphere (after methane) and has a globally averaged mixing ratio of ~530 ppbv, it is shown that all major sources of atmospheric H 2 are hundreds of millions of times poorer in D than H 2 itself.
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Accretion Product Formation in the Self-Reaction of Ethene-Derived Hydroxy Peroxy Radicals
Sara E. Murphy,John D. Crounse,Kristian H. Møller,Samir Rezgui,Nicholas J Hafeman,James Roger Park,Henrik G. Kjaergaard,Brian M. Stoltz,Paul O. Wennberg +8 more
TL;DR: In this paper , the authors revisited one of the simplest RO2 + RO2 reactions: the self-reaction of the ethene-derived hydroxyperoxy radical formed via sequential addition of OH and O2 to ethenes.
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Elucidating climatic drivers of photosynthesis by tropical forests.
Yan Wang,Junjie Liu,Paul O. Wennberg,Liyin He,Damien Bonal,Philipp Köhler,Christian Frankenberg,Stephen Sitch,Pierre Friedlingstein +8 more
TL;DR: In this paper , the authors study the response of tropical forests to changes in absorbed solar energy and water supply under the changing climate, and find that on the seasonal timescale, the dependence of GPP on climate variables is highly heterogeneous.
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An investigation of petrochemical emissions during KORUS-AQ: Ozone production, reactive nitrogen evolution, and aerosol production
Young Ro Lee,L. G. Huey,David B. Tanner,Masayuki Takeuchi,Hang Qu,Xiaoxi Liu,Nga L. Ng,James H. Crawford,Alan Fried,Dirk Richter,Isobel J. Simpson,Donald R. Blake,Nicola J. Blake,Simone Meinardi,Saewung Kim,Glenn S. Diskin,Joshua P. DiGangi,Yonghoon Choi,Sally E. Pusede,Paul O. Wennberg,Michelle J. Kim,John D. Crounse,Alex P. Teng,Ronald C. Cohen,Paul M. Romer,William H. Brune,Armin Wisthaler,Tomas Mikoviny,Jose L. Jimenez,Pedro Campuzano-Jost,Benjamin A. Nault,Andrew J. Weinheimer,Samuel R. Hall,Kirk Ullmann +33 more
TL;DR: In this article , the chemical evolution of petrochemical emissions was examined utilizing near-source and downwind plume transects, where small alkenes, such as ethene (C2H4), propene (C3H6), and 1,3-butadiene, dominated the hydroxyl (OH) radical reactivity near the source region.