Relationship between boundary layer heights and growth rates with ground-level ozone in Houston, Texas

Relationship between boundary layer heights and growth rates with ground-level ozone in Houston, Texas

Measurements and predictions of ambient ozone (O3), planetary boundary layer (PBL) height, the surface energy budget, wind speed, and other meteorological parameters were made near downtown Houston, Texas, and were used to investigate meteorological controls on elevated levels of ground‐level O3. Da...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres Vol. 119; no. 10; pp. 6230 - 6245
Main Authors: Haman, C. L., Couzo, E., Flynn, J. H., Vizuete, W., Heffron, B., Lefer, B. L.
Format: Journal Article
Language:English
Published: Washington Blackwell Publishing Ltd 27-05-2014
Subjects:
boundary layer growth rate
Boundary layers
Budgeting
Emission measurements
Geophysics
Mathematical models
Meteorology
Morning
Night
Ozone
planetary boundary layer height
Surface energy
Temperature
turbulent mixing
Wind speed
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Summary:Measurements and predictions of ambient ozone (O3), planetary boundary layer (PBL) height, the surface energy budget, wind speed, and other meteorological parameters were made near downtown Houston, Texas, and were used to investigate meteorological controls on elevated levels of ground‐level O3. Days during the study period (1 April 2009 to 31 December 2010 for measurements and 15 April 2009 to 17 October 2009 for modeled) were classified into low (LO3) and high ozone (HO3) days. The majority of observed high HO3 days occurred in a postfrontal environment. Observations showed there is not a significant difference in daily maximum PBL heights on HO3 and LO3 days. Modeling results showed large differences between maximum PBL heights on HO3 and LO3 days. Nighttime and early morning observed and modeled PBL heights are consistently lower on HO3 days than on LO3 days. The observed spring LO3 days had the most rapid early morning PBL growth (~350 m h−1) while the fall HO3 group had the slowest (~200 m h−1). The predicted maximum average hourly morning PBL growth rates were greater on HO3 (624 m h−1) days than LO3 days (361 m h−1). Observed turbulent mixing parameters were up to 2–3 times weaker on HO3 days, which indicate large‐scale subsidence associated with high‐pressure systems (leading to clear skies and weak winds) substantially suppresses mixing. Lower surface layer ventilation coefficients were present in the morning on HO3 days in the spring and fall, which promotes the accumulation of O3 precursors near the surface. Key Points Observed/modeled PBLHs are lower during nighttime/morning on high ozone days Observed PBL growth rates are lower during early morning on high ozone days Observed mixing parameters are 2‐3 times weaker on high ozone days
Bibliography:ark:/67375/WNG-TC6XX26D-K
ArticleID:JGRD51353
istex:BFA2F28DB10B2991DED4248CE4E0D8B98CF2398D
NIH/NIEHS - No. T32ES007018
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2169-897X
2169-8996
DOI:10.1002/2013JD020473