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The impact of chemical lateral boundary conditions on CMAQ predictions of tropospheric ozone over the continental United States

Authors :
Jonathan E. Pleim
Rohit Mathur
Geoffrey J. DiMego
Jeffery T. McQueen
Paula Davidson
Jeffrey Young
Louisa K. Emmons
George Pouliot
Anne M. Thompson
Kenneth L. Schere
Robert B. Pierce
Ivanka Stajner
Tanya L. Otte
Shaocai Yu
Hsin Mu Lin
Youhua Tang
Daniel Tong
Daiwen Kang
Pius Lee
Ho Chun Huang
Marina Tsidulko
Source :
Environmental Fluid Mechanics. 9:43-58
Publication Year :
2008
Publisher :
Springer Science and Business Media LLC, 2008.

Abstract

A sensitivity study is performed to examine the impact of lateral boundary conditions (LBCs) on the NOAA-EPA operational Air Quality Forecast Guidance over continental USA. We examined six LBCS: the fixed profile LBC, three global LBCs, and two ozonesonde LBCs for summer 2006. The simulated results from these six runs are compared to IONS ozonesonde and surface ozone measurements from August 1 to 5, 2006. The choice of LBCs can affect the ozone prediction throughout the domain, and mainly influence the predictions in upper altitude or near inflow boundaries, such as the US west coast and the northern border. Statistical results shows that the use of global model predictions for LBCs could improve the correlation coefficients of surface ozone prediction over the US west coast, but could also increase the ozone mean bias in most regions of the domain depending on global models. In this study, the use of the MOZART (Model for Ozone And Related chemical Tracers) prediction for CMAQ (Community Multiscale Air Quality) LBC shows a better surface ozone prediction than that with fixed LBC, especially over the US west coast. The LBCs derived from ozonesonde measurements yielded better O3 correlations in the upper troposphere.

Details

ISSN :
15731510 and 15677419
Volume :
9
Database :
OpenAIRE
Journal :
Environmental Fluid Mechanics
Accession number :
edsair.doi...........21c222c56d4e4c9fb50d6c12951e2e62
Full Text :
https://doi.org/10.1007/s10652-008-9092-5