Peter Hess focuses on Atmospheric sciences, Climatology, Troposphere, Ozone and Meteorology. His biological study spans a wide range of topics, including Snow, Atmospheric methane, Deposition and Atmospheric chemistry. The concepts of his Climatology study are interwoven with issues in Atmosphere and Aerosol.
Peter Hess works in the field of Troposphere, namely Chemical transport model. Ozone and Isoprene are two areas of study in which Peter Hess engages in interdisciplinary work. His work on Data assimilation as part of general Meteorology research is frequently linked to MOPITT and Background level, thereby connecting diverse disciplines of science.
Peter Hess spends much of his time researching Atmospheric sciences, Climatology, Troposphere, Ozone and Chemical transport model. His Atmospheric sciences research includes elements of Meteorology, Atmospheric model and Atmospheric chemistry. His Climatology research is multidisciplinary, relying on both Atmosphere, Climate model and Radiative forcing.
His research integrates issues of Mineral dust and Forcing in his study of Atmosphere. The Troposphere study combines topics in areas such as Middle latitudes, Trace gas, Convection and Aerosol. In his work, Peter Hess performs multidisciplinary research in Ozone and Isoprene.
Peter Hess mainly investigates Atmospheric sciences, Climatology, Ozone, Troposphere and Air quality index. His Atmospheric sciences research integrates issues from Temperate forest, Soil water and Atmosphere. His Climatology research is multidisciplinary, incorporating elements of Wetland methane emissions, Atmospheric methane, Climate model and Radiative forcing.
His Ozone research entails a greater understanding of Meteorology. In his study, Volume and Isentropic process is inextricably linked to Stratosphere, which falls within the broad field of Troposphere. Peter Hess interconnects Photodissociation, Climate impact and Atmospheric river in the investigation of issues within Air quality index.
His scientific interests lie mostly in Atmospheric sciences, Climatology, Ozone, Biogeochemical cycle and Radiative forcing. His Atmospheric sciences research is mostly focused on the topic Chemical transport model. His study in the field of Troposphere and Stratosphere also crosses realms of Standard deviation, Percentile and Persistence.
He combines subjects such as Climate model, Ozone layer and Ozone depletion with his study of Troposphere. His studies examine the connections between Ozone and genetics, as well as such issues in Air quality index, with regards to Photodissociation and Fine particulate. His Radiative forcing study combines topics from a wide range of disciplines, such as Photosynthesis, Stomatal conductance, Transpiration, Water cycle and Ozone exposure.
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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)
A novel type of cardiac calcium channel in ventricular cells.
Bernd Nilius;P Hess;J B Lansman;R W Tsien.
The impact of boreal forest fire on climate warming.
J. T. Randerson;H. Liu;M. G. Flanner;S. D. Chambers.
Toward a Minimal Representation of Aerosols in Climate Models: Description and Evaluation in the Community Atmosphere Model CAM5
Xiaohong Liu;Richard C. Easter;Steven J. Ghan;Rahul A. Zaveri.
Geoscientific Model Development (2012)
Calcium channels: mechanisms of selectivity, permeation, and block.
Richard W. Tsien;Peter Hess;Edwin W. McCleskey;Robert L. Rosenberg.
Annual Review of Biophysics and Biophysical Chemistry (1987)
Springtime warming and reduced snow cover from carbonaceous particles
M. G. Flanner;C. S. Zender;P. G. Hess;P. G. Hess;N. M. Mahowald;N. M. Mahowald.
Atmospheric Chemistry and Physics (2009)
CAM-chem: description and evaluation of interactive atmospheric chemistry in the Community Earth System Model
J.-F. Lamarque;L. Emmons;Peter Hess;Douglas E. Kinnison.
Geoscientific Model Development (2012)
Sensitivity of chemical tracers to meteorological parameters in the MOZART-3 chemical transport model
D.E. Kinnison;Guy P. Brasseur;S. Walters;R.R. Garcia.
Journal of Geophysical Research (2007)
Multimodel estimates of intercontinental source-receptor relationships for ozone pollution
Arlene M. Fiore;F. J. Dentener;O. Wild;C. Cuvelier.
Journal of Geophysical Research (2009)
A multi-model assessment of pollution transport to the Arctic
D. T. Shindell;M. Chin;F. Dentener;R. M. Doherty.
Atmospheric Chemistry and Physics (2008)
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