Atmospheric sciences, Air quality index, Ozone, Meteorology and Aerosol are her primary areas of study. Her Atmospheric sciences study combines topics in areas such as Atmosphere, Climatology, Smoke and Pollution. Her Climatology research is multidisciplinary, relying on both Biosphere and Precipitation.
Her Air quality index research includes elements of Air pollution and Particulates. Her work deals with themes such as Troposphere and Volatile organic compound, which intersect with Ozone. The Aerosol study combines topics in areas such as Environmental chemistry and Seasonality.
Her main research concerns Atmospheric sciences, Air quality index, Climatology, Meteorology and Aerosol. Her study in Atmospheric sciences is interdisciplinary in nature, drawing from both Ozone, Atmospheric chemistry, Vegetation, Pollution and Air pollution. The study incorporates disciplines such as Combustion, Climate change, Particulates and Smoke in addition to Air quality index.
Her Climatology research is multidisciplinary, incorporating perspectives in Climate model, Arctic and Water cycle. Her study on Plume and MOPITT is often connected to Milagro as part of broader study in Meteorology. Christine Wiedinmyer has included themes like Environmental chemistry, Deposition, Precipitation and Emission inventory in her Aerosol study.
Christine Wiedinmyer spends much of her time researching Atmospheric sciences, Air quality index, Particulates, Stove and Aerosol. Her Atmospheric sciences research incorporates elements of Climate change, Radiative forcing and Ozone. Her Air quality index research incorporates themes from Atmospheric composition, Boreal and Toxicology.
Her studies in Particulates integrate themes in fields like Peat and Carbon dioxide. Her research in Stove intersects with topics in Biomass, Air pollution and Environmental engineering. Her Aerosol research includes themes of Smoke, Weather Research and Forecasting Model and Moderate-resolution imaging spectroradiometer.
Christine Wiedinmyer mainly focuses on Air quality index, Stove, Particulates, Air pollution and Biomass. Her Air quality index research integrates issues from Vegetation, Toxicology, Environmental engineering and Ozone. Within one scientific family, she focuses on topics pertaining to Land use under Vegetation, and may sometimes address concerns connected to Climatology.
Christine Wiedinmyer has researched Particulates in several fields, including Carbon dioxide, Atmospheric sciences and Aerosol. Her study in the fields of Trace gas under the domain of Atmospheric sciences overlaps with other disciplines such as Greenland ice sheet. Her Biomass study integrates concerns from other disciplines, such as Environmental chemistry, Total organic carbon, Chemical mass balance and Chemical composition.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Estimates of global terrestrial isoprene emissions using MEGAN (Model of Emissions of Gases and Aerosols from Nature)
A. Guenther;T. Karl;P. Harley;C. Wiedinmyer.
Atmospheric Chemistry and Physics (2006)
Emission factors for open and domestic biomass burning for use in atmospheric models
S. K. Akagi;Robert J. Yokelson;C. Wiedinmyer;M. Alvarado.
Atmospheric Chemistry and Physics (2011)
Description and evaluation of the Model for Ozone and Related chemical Tracers, version 4 (MOZART-4)
Louisa K. Emmons;Stacy Walters;Peter G. Hess;Peter G. Hess;Jean-François Lamarque.
Geoscientific Model Development (2010)
The Fire INventory from NCAR (FINN): a high resolution global model to estimate the emissions from open burning
C. Wiedinmyer;S. K. Akagi;Robert J. Yokelson;L. K. Emmons.
Geoscientific Model Development (2011)
The global methane budget 2000–2012
A review of Secondary Organic Aerosol (SOA) formation from isoprene
A. G. Carlton;C. Wiedinmyer;J. H. Kroll.
Atmospheric Chemistry and Physics (2009)
Estimating emissions from fires in North America for air quality modeling
Christine Wiedinmyer;Brad Quayle;Chris Geron;Angie Belote.
Atmospheric Environment (2006)
Emissions from biomass burning in the Yucatan
R. J. Yokelson;J. D. Crounse;P. F. DeCarlo;P. F. DeCarlo;T. Karl.
Atmospheric Chemistry and Physics (2009)
Effect of petrochemical industrial emissions of reactive alkenes and NOx on tropospheric ozone formation in Houston, Texas
T. B. Ryerson;M. Trainer;W. M. Angevine;W. M. Angevine;C. A. Brock;C. A. Brock.
Journal of Geophysical Research (2003)
Characterization of Airborne Microbial Communities at a High-Elevation Site and Their Potential To Act as Atmospheric Ice Nuclei
Robert M. Bowers;Christian L. Lauber;Christine Wiedinmyer;Micah Hamady.
Applied and Environmental Microbiology (2009)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: