Convective venting and surface ozone in Houston during Texas 2006

The influence of convective mixing on surface ozone in Houston during TexAQS 2006 is examined. We use airborne lidar measurements of ozone and ship-based Doppler lidar measurements of winds, together with ship- and ground-based measurements of surface ozone to characterize horizontal and vertical mi...

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Veröffentlicht in:	Journal of geophysical research. Atmospheres 2010-08, Vol.115 (D16)
Hauptverfasser:	Langford, A O, Tucker, S C, Senff, C J, Banta, R M, Brewer, WA, AlvarezEEE, R J, Hardesty, R M, Lerner, B M, Williams, E J
Format:	Artikel
Sprache:	eng
Schlagworte:	Channels Convection Doppler effect Geophysics Lidar Ozone Plumes Surface chemistry
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container_title	Journal of geophysical research. Atmospheres
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creator	Langford, A O Tucker, S C Senff, C J Banta, R M Brewer, WA AlvarezEEE, R J Hardesty, R M Lerner, B M Williams, E J
description	The influence of convective mixing on surface ozone in Houston during TexAQS 2006 is examined. We use airborne lidar measurements of ozone and ship-based Doppler lidar measurements of winds, together with ship- and ground-based measurements of surface ozone to characterize horizontal and vertical mixing of ozone plumes from the Houston Ship Channel on two high-ozone days. We show that a stable capping layer trapped the plume in the boundary layer on 31 August, while shallow convection associated with active fair weather cumulus clouds mixed the plume with free tropospheric air on 17 August. Deep convection associated with an isolated air mass thunderstorm further decreased surface ozone near Galveston Bay in the late afternoon. High ozone thus affected a smaller area for a shorter period on 17 August, despite similar background concentrations and local production. We generalize these findings by comparing Houston ozone concentrations to National Weather Service (Lake Charles, LA) radiosondes. We sho
doi_str_mv	10.1029/2009JD013301
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We generalize these findings by comparing Houston ozone concentrations to National Weather Service (Lake Charles, LA) radiosondes. 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subjects	Channels Convection Doppler effect Geophysics Lidar Ozone Plumes Surface chemistry
title	Convective venting and surface ozone in Houston during Texas 2006
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