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    Impact of Urbanization on Heavy Convective Precipitation under Strong Large-Scale Forcing: A Case Study over the Milwaukee–Lake Michigan Region

    Source: Journal of Hydrometeorology:;2013:;Volume( 015 ):;issue: 001::page 261
    Author:
    Yang, Long
    ,
    Smith, James A.
    ,
    Baeck, Mary Lynn
    ,
    Bou-Zeid, Elie
    ,
    Jessup, Stephen M.
    ,
    Tian, Fuqiang
    ,
    Hu, Heping
    DOI: 10.1175/JHM-D-13-020.1
    Publisher: American Meteorological Society
    Abstract: n this study, observational and numerical modeling analyses based on the Weather Research and Forecasting Model (WRF) are used to investigate the impact of urbanization on heavy rainfall over the Milwaukee?Lake Michigan region. The authors examine urban modification of rainfall for a storm system with continental-scale moisture transport, strong large-scale forcing, and extreme rainfall over a large area of the upper Midwest of the United States. WRF simulations were carried out to examine the sensitivity of the rainfall distribution in and around the urban area to different urban land surface model representations and urban land-use scenarios. Simulation results suggest that urbanization plays an important role in precipitation distribution, even in settings characterized by strong large-scale forcing. For the Milwaukee?Lake Michigan region, the thermodynamic perturbations produced by urbanization on the temperature and surface pressure fields enhance the intrusion of the lake breeze and facilitate the formation of a convergence zone, which create favorable conditions for deep convection over the city. Analyses of model and observed vertical profiles of reflectivity using contoured frequency by altitude displays (CFADs) suggest that cloud dynamics over the city do not change significantly with urbanization. Simulation results also suggest that the large-scale rainfall pattern is not sensitive to different urban representations in the model. Both urban representations, the Noah land surface model with urban land categories and the single-layer urban canopy model, adequately capture the dominant features of this storm over the urban region.
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      Impact of Urbanization on Heavy Convective Precipitation under Strong Large-Scale Forcing: A Case Study over the Milwaukee–Lake Michigan Region

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    http://yetl.yabesh.ir/yetl1/handle/yetl/4225043
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    contributor authorYang, Long
    contributor authorSmith, James A.
    contributor authorBaeck, Mary Lynn
    contributor authorBou-Zeid, Elie
    contributor authorJessup, Stephen M.
    contributor authorTian, Fuqiang
    contributor authorHu, Heping
    date accessioned2017-06-09T17:15:33Z
    date available2017-06-09T17:15:33Z
    date copyright2014/02/01
    date issued2013
    identifier issn1525-755X
    identifier otherams-81981.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4225043
    description abstractn this study, observational and numerical modeling analyses based on the Weather Research and Forecasting Model (WRF) are used to investigate the impact of urbanization on heavy rainfall over the Milwaukee?Lake Michigan region. The authors examine urban modification of rainfall for a storm system with continental-scale moisture transport, strong large-scale forcing, and extreme rainfall over a large area of the upper Midwest of the United States. WRF simulations were carried out to examine the sensitivity of the rainfall distribution in and around the urban area to different urban land surface model representations and urban land-use scenarios. Simulation results suggest that urbanization plays an important role in precipitation distribution, even in settings characterized by strong large-scale forcing. For the Milwaukee?Lake Michigan region, the thermodynamic perturbations produced by urbanization on the temperature and surface pressure fields enhance the intrusion of the lake breeze and facilitate the formation of a convergence zone, which create favorable conditions for deep convection over the city. Analyses of model and observed vertical profiles of reflectivity using contoured frequency by altitude displays (CFADs) suggest that cloud dynamics over the city do not change significantly with urbanization. Simulation results also suggest that the large-scale rainfall pattern is not sensitive to different urban representations in the model. Both urban representations, the Noah land surface model with urban land categories and the single-layer urban canopy model, adequately capture the dominant features of this storm over the urban region.
    publisherAmerican Meteorological Society
    titleImpact of Urbanization on Heavy Convective Precipitation under Strong Large-Scale Forcing: A Case Study over the Milwaukee–Lake Michigan Region
    typeJournal Paper
    journal volume15
    journal issue1
    journal titleJournal of Hydrometeorology
    identifier doi10.1175/JHM-D-13-020.1
    journal fristpage261
    journal lastpage278
    treeJournal of Hydrometeorology:;2013:;Volume( 015 ):;issue: 001
    contenttypeFulltext
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