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Section 1: Publication
Publication Type
Journal Article
Authorship
Hwang Yunsung, Ma Xiao, Agyeman Richard Y.K., Li Yanping
Title
Climatological features of future MCSs over the Canadian Prairies using convection-permitting climate models
Year
2023
Publication Outlet
Atmospheric Research, Volume 293, 2023, 106922, ISSN 0169-8095
DOI
ISBN
ISSN
Citation
Hwang Yunsung, Ma Xiao, Agyeman Richard Y.K., Li Yanping (2023) Climatological features of future MCSs over the Canadian Prairies using convection-permitting climate models, Atmospheric Research, Volume 293, 2023, 106922, ISSN 0169-8095
Abstract
This study explores the potential effects of global warming on Mesoscale Convective Systems (MCSs) initiation and duration in the Canadian Prairies. By utilizing high-resolution convection-permitting climate models (CPCMs), the study examines 15 parameters to identify the most significant factor for predicting future changes, using the Pseudo Global Warming (PGW) approach. The results suggest that the frequency of MCSs will significantly increase in the future, with varying initiation and duration patterns between daytime and nighttime. The study highlights Preciptable Water (PW), Isentropic Potential Vorticity (IPV), and Most Unstable Convective Potential Energy (MUCAPE) as the most significant parameters for long-lived nighttime MCSs, while Relative Humidity at 850 hPa (RH850), PW, and Storm Relative Helicity 0-1 km (SRH1km) are identified as the most significant parameters for long-lived daytime MCSs. The findings are supported by violin plots that show the differences in the distribution of the 15 parameters in the initiation regions of short- and long-lived MCSs. Additionally, this study partially confirms previous research findings, such as the Mountain-plains solenoids, which suggest that increased PW and RH850 in the future are in agreement with increased total precipitation in the northern region. The study emphasizes the importance of utilizing newly released forcing datasets to investigate the potential impact of global warming on MCSs initiation and duration in the Canadian Prairies. Keywords: Pseudo-global warming approach; CMIP6; ERA5; Future mesoscale convective systems; Canadian prairies
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