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Characterization of Surface Heterogeneity‐Induced Convection Using Cluster Analysis
Author(s) -
Chen Jingyi,
Hagos Samson,
Xiao Heng,
Fast Jerome D.,
Feng Zhe
Publication year - 2020
Publication title -
journal of geophysical research: atmospheres
Language(s) - English
Resource type - Journals
eISSN - 2169-8996
pISSN - 2169-897X
DOI - 10.1029/2020jd032550
Subject(s) - advection , convection , environmental science , latent heat , precipitation , atmospheric sciences , boundary layer , sensible heat , climatology , convective boundary layer , planetary boundary layer , atmosphere (unit) , large eddy simulation , meteorology , geology , geography , turbulence , mechanics , physics , thermodynamics
Land‐atmosphere interactions and boundary layer processes often control the formation of shallow clouds and subsequently deep convective precipitation over the U.S. Southern Great Plains. In this study, we examine the impacts of large‐scale advection on the cloud populations and land‐atmospheric coupling observed during the Holistic Interactions of Shallow Clouds, Aerosols, and Land‐Ecosystems field campaign in 2016. We performed two large eddy simulations using the Weather Research and Forecasting Model for a day in which the transition from clear‐sky to shallow precipitating clouds and isolated deep convection was observed. The control simulation reproduced the overall distribution of cloud populations by using realistic soil conditions with an interactive land model. In the sensitivity simulation where large‐scale advection is removed, a strong relationship between the land and boundary layer is found. To study the timing, location, and intensity of convective initiation and the relationship of clouds with land surface properties, a cluster analysis of equivalent potential temperature is performed for the simulation without large‐scale advection. That analysis shows that convective clouds first form over regions with higher surface sensible heat flux. Precipitation from those convective clouds likely triggers new updrafts nearby about 2 hr later through the lifting associated with cold pools. The cluster analysis also shows that in addition to the spatial pattern of soil moisture, land use and soil texture in western Oklahoma also influence the location of convective initiation.

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