Zonal Oscillation of Western Pacific Subtropical High and Subseasonal SST Variations during Yangtze Persistent Heavy Rainfall Events

This study examines the relationship between the zonal oscillation of the western Pacific subtropical high (WPSH) and underneath sea surface temperature (SST) variation on a subseasonal time scale, associated with the persistent heavy rainfall (PHR) events over the middle and lower reaches of the Ya...

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Bibliographic Details
Published in:Journal of climate 2013-11, Vol.26 (22), p.8929-8946
Main Authors: Ren, Xuejuan, Yang, Xiu-Qun, Sun, Xuguang
Format: Article
Language:English
Subjects:
Anomalies
Anticyclonic circulation
Atmospheric circulation
Breaking
Circulation
Circulation anomalies
Climate models
Coastal
Coastal water
Coastal zone
Contour lines
Convective instability
Cyclonic circulation
Datasets
Drought
Dynamic height
Earth, ocean, space
East Asia
Exact sciences and technology
External geophysics
Freshwater
Geopotential
Geopotential height
Heat flux
Heat transfer
Heavy rainfall
Latent heat
Latent heat flux
Marine
Meteorology
Monsoons
Oscillations
Precipitation
Rain
Rainfall
River valleys
Sea surface
Sea surface temperature
Sea surface temperature anomalies
Solar radiation
Subtropics
Summer
Surface temperature
Time
Water in the atmosphere (humidity, clouds, evaporation, precipitation)
Wind
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Summary:This study examines the relationship between the zonal oscillation of the western Pacific subtropical high (WPSH) and underneath sea surface temperature (SST) variation on a subseasonal time scale, associated with the persistent heavy rainfall (PHR) events over the middle and lower reaches of the Yangtze River valley (MLYRV) in China. A total of 76 PHR events and 45 break events in the summers of 1979–2011 are first identified over the MLYRV and divided into early and late summer groups. During the PHR events over the MLYRV for both groups, the WPSH stretches more westward, accompanied by the positive anomalies of the 500-hPa geopotential height field over East Asia and its coastal region south of 30°N and the subseasonal warmer SSTs beneath the WPSH western edge. The time-lagged composites suggest that the WPSH western edge exhibits westward-then-eastward migration on a subseasonal time scale for the PHR events. The zonal changes of the WPSH and anomalous circulation and SST anomaly (SSTA) signals for break events is almost the mirror image of that for the PHR events for the early summer group. Accompanied by the WPSH westward extension, the increased incident solar radiation and decreased latent heat flux over the coastal region of East Asia contribute to the positive SSTAs beneath the western part of the WPSH. The positive SSTAs construct a convective instability that provides an adverse condition for maintaining the anticyclonic anomalies in the mid–lower levels. The persistent SST warming is also favorable to the transition of low-level circulation from anticyclonic to cyclonic anomalies over the coastal region. As a result, the WPSH withdraws eastward after the peak of the rainfall events over the MLYRV.
ISSN:0894-8755
1520-0442
DOI:10.1175/jcli-d-12-00861.1