An examination of summertime cyclone transport processes during Intercontinental Chemical Transport Experiment (INTEX-A)

Warm conveyor belts (WCBs) are important mechanisms for transporting pollution during the cool season. These airstreams distribute surface emissions throughout the troposphere, playing a major role in the long‐range transport of chemical species. Previous efforts to understand the lofting of WCBs ha...

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Veröffentlicht in:	Journal of Geophysical Research. D. Atmospheres 2006-12, Vol.111 (D24), p.n/a
Hauptverfasser:	Kiley, Christopher M., Fuelberg, Henry E.
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Sprache:	eng
Schlagworte:	Earth sciences Earth, ocean, space Exact sciences and technology ICARTT INTEX-A warm conveyor belt
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creator	Kiley, Christopher M. Fuelberg, Henry E.
description	Warm conveyor belts (WCBs) are important mechanisms for transporting pollution during the cool season. These airstreams distribute surface emissions throughout the troposphere, playing a major role in the long‐range transport of chemical species. Previous efforts to understand the lofting of WCBs have not investigated the relative importance of vertical forcing. In this study, we use fine resolution model‐derived meteorological data, air parcel trajectories, flux calculations, and a diagnostic package for weather systems to perform a focused investigation of WCBs during the warm season INTEX‐A period. Lifting and transport mechanisms during INTEX‐A are compared to a well‐documented cool season WCB case in the literature. Results show that weak, midlatitude cyclones are capable of producing vertical transport as great or greater than much stronger cyclones. An analysis of forcing terms contributing to vertical motion reveals that the Laplacian of latent heat release is the primary contributor to vertical motion during some cases of INTEX‐A. The latent heating term is found to be greatest in areas of deep convection. This convection allows weak cyclones to produce WCB‐like transport. WCB pathways are similar for the cases studied. In each example, air which originates far south of the low in the warm sector ascends to the north and joins the upper level westerly flow northeast of the low center. Although the transport pathways are similar, the forcing mechanism and location of maximum vertical transport are found to exhibit strong case‐to‐case variability. When cyclone‐scale dynamics are relatively weak, widespread deep convection, especially south of the cyclone's center, is necessary to produce transport resembling a WCB.
doi_str_mv	10.1029/2006JD007115
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The latent heating term is found to be greatest in areas of deep convection. This convection allows weak cyclones to produce WCB‐like transport. WCB pathways are similar for the cases studied. In each example, air which originates far south of the low in the warm sector ascends to the north and joins the upper level westerly flow northeast of the low center. Although the transport pathways are similar, the forcing mechanism and location of maximum vertical transport are found to exhibit strong case‐to‐case variability. 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D. Atmospheres</title><addtitle>J. Geophys. Res</addtitle><description>Warm conveyor belts (WCBs) are important mechanisms for transporting pollution during the cool season. These airstreams distribute surface emissions throughout the troposphere, playing a major role in the long‐range transport of chemical species. Previous efforts to understand the lofting of WCBs have not investigated the relative importance of vertical forcing. In this study, we use fine resolution model‐derived meteorological data, air parcel trajectories, flux calculations, and a diagnostic package for weather systems to perform a focused investigation of WCBs during the warm season INTEX‐A period. Lifting and transport mechanisms during INTEX‐A are compared to a well‐documented cool season WCB case in the literature. Results show that weak, midlatitude cyclones are capable of producing vertical transport as great or greater than much stronger cyclones. An analysis of forcing terms contributing to vertical motion reveals that the Laplacian of latent heat release is the primary contributor to vertical motion during some cases of INTEX‐A. The latent heating term is found to be greatest in areas of deep convection. This convection allows weak cyclones to produce WCB‐like transport. WCB pathways are similar for the cases studied. In each example, air which originates far south of the low in the warm sector ascends to the north and joins the upper level westerly flow northeast of the low center. Although the transport pathways are similar, the forcing mechanism and location of maximum vertical transport are found to exhibit strong case‐to‐case variability. 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source	Wiley Online Library Journals Frontfile Complete; Wiley Free Content; Wiley-Blackwell AGU Digital Library; Alma/SFX Local Collection
subjects	Earth sciences Earth, ocean, space Exact sciences and technology ICARTT INTEX-A warm conveyor belt
title	An examination of summertime cyclone transport processes during Intercontinental Chemical Transport Experiment (INTEX-A)
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