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RECORD NUMBER: 29 OF 57

OLS Field Name OLS Field Data
Main Title Evaluation of a Coupled Land-Surface and Dry Deposition Model through Comparison to Field Measurements of Surface Heat, Moisture, and Ozone Fluxes.
Author Pleim, J. E. ; Xiu, A. ; Finkelstein, P. L. ; Clarke, J. F. ;
CORP Author Environmental Protection Agency, Research Triangle Park, NC. National Exposure Research Lab. ;MCNC, Research Triangle Park, NC. Information Technologies Div.
Publisher 1997
Year Published 1997
Report Number EPA/600/A-97/038;
Stock Number PB97-193759
Additional Subjects Soil-water-plant relationships ; Ozone ; Air land interactions ; Soil moisture ; Evapotranspiration ; Land surface temperature ; Vegetation ; Humidity ; Flux(Rate) ; Stomata ; Atmospheric chemistry ; Planetary boundary layer ; Three-dimensional models ; Dry deposition
Internet Access
Description Access URL
https://nepis.epa.gov/Exe/ZyPDF.cgi?Dockey=P100U9YB.PDF
Holdings
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Status
NTIS  PB97-193759 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 12/22/1997
Collation 8p
Abstract
The Fifth Generation Mesoscale Model has been modified to include an improved land-surface scheme with explicit treatment of soil moisture and evapotranspiration. A key aspect of this work is an indirect soil moisture nudging scheme which adjusts soil moisture according to model errors in surface level temperature and humidity. Since stomatal resistance is an important component of both evapotranspiration and dry deposition, a chemical dry deposition model is coupled to the land surface scheme through the use of several common elements. Both aerodynamic and bulk stomatal resistance computed in the evapotranspiration model are used to compute dry deposition of gaseous species. This technique has the advantage over many other dry deposition models of being able to respond to changing soil moisture conditions. Also, the soil moisture adjustment scheme should result in more realistic stomatal conductances and dry deposition veolocities. The current study focuses on comparison of model simulations to field measurements made in a soybean field in southern Kentucky during the summer of 1995.