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Mapping hydroxyl variability throughout the global remote troposphere via synthesis of airborne and satellite formaldehyde observations
Glenn M. Wolfe
, Julie M. Nicely
, Jason M.St Clair
, Thomas F. Hanisco
, Jin Liao
, Luke D. Oman
,
William B. Brune
,
David Miller
, Alexander Thames
, Gonzalo González Abad
, Thomas B. Ryerson
, Chelsea R. Thompson
, Jeff Peischl
, Kathryn McCain
, Colm Sweeney
, Paul O. Wennberg
, Michelle Kim
, John D. Crounse
, Samuel R. Hall
, Kirk Ullmann
Glenn Diskin, Paul Bui, Cecilia Chang, Jonathan Dean-Day
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Meteorology and Atmospheric Science
Research output
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Contribution to journal
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Article
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peer-review
74
Scopus citations
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Keyphrases
Hydroxyl
100%
Troposphere
100%
Formaldehyde
100%
Methane
33%
Tightly Coupled
33%
Temporal Variability
33%
Spatial Variability
33%
Tropospheric Ozone
33%
Ozone Production
33%
OH Production
33%
Model Building
33%
Mean Concentration
33%
Total Column
33%
Hydroxyl Radical
33%
In Situ Observation
33%
Production Loss
33%
Oxidative Capacity
33%
Satellite-based
33%
Oxidation Products
33%
Process Level
33%
Fine Resolution
33%
East Pacific
33%
South Atlantic
33%
Hydrocarbon Oxidation
33%
Tropical West Pacific
33%
Model Deficiency
33%
Building Process
33%
Regional Phenomena
33%
Earth and Planetary Sciences
Troposphere
100%
Methane
66%
Tomography
66%
Atmospherics
66%
Tropospheric Ozone
33%
Seasonality
33%
Hydroxyl Radical
33%
South Atlantic
33%