Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China

Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China

Winter precipitation over South China tended to be much higher than normal for the spring El Niño events during 1979–2016. For the spring El Niño events, the meridional and zonal circulations served as a bridge, linking the warmer sea surface temperature (SST) in the...

Full description

Bibliographic Details
Main Authors: Lingli Fan, Jianjun Xu, Huade Guan
Format: Article
Language:English
Published: MDPI AG 2018-09-01
Series:Atmosphere
Subjects:
spring El Niño
summer El Niño
South China
winter precipitation
Online Access:http://www.mdpi.com/2073-4433/9/10/366
id doaj-16be578a26454ca5b70313588d50ea22
record_format Article
spelling doaj-16be578a26454ca5b70313588d50ea222020-11-24T21:48:26ZengMDPI AGAtmosphere2073-44332018-09-0191036610.3390/atmos9100366atmos9100366Impacts of Different Onset Time El Niño Events on Winter Precipitation over South ChinaLingli Fan0Jianjun Xu1Huade Guan2South China Sea Institute of Marine Meteorology, Guangdong Ocean University, Zhanjiang 524088, ChinaSouth China Sea Institute of Marine Meteorology, Guangdong Ocean University, Zhanjiang 524088, ChinaNational Centre for Groundwater Research and Training, Flinders University, Bedford Park, South Australia 5042, AustraliaWinter precipitation over South China tended to be much higher than normal for the spring El Niño events during 1979–2016. For the spring El Niño events, the meridional and zonal circulations served as a bridge, linking the warmer sea surface temperature (SST) in the eastern equatorial Pacific (EEP) and South China winter precipitation. This possible physical process can be described as follows: During boreal winter, a positive SST anomaly in the EEP was concurrent with strong anomalous convection activity over South China via anomalous Walker circulation, an anomalous Hadley Cell along 110°–130° E, and a zonal westward teleconnection wave train pattern at 700 hPa in the Northern Hemisphere. In addition, an anomalous pumping effect at 200 hPa contributed to the convective activity. Meanwhile, the western Pacific subtropical high moved southwards and strengthened at 500 hPa, and abnormal southwesterly winds brought plentiful water vapor to South China at 850 hPa. All these factors favored an increase in precipitation over South China. For the summer El Niño events, the aforementioned anomalies were weaker, which resulted in a precipitation close to normal over South China.http://www.mdpi.com/2073-4433/9/10/366spring El Niñosummer El NiñoSouth Chinawinter precipitation
collection DOAJ
language English
format Article
sources DOAJ
author Lingli Fan
Jianjun Xu
Huade Guan
spellingShingle Lingli Fan
Jianjun Xu
Huade Guan
Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
Atmosphere
spring El Niño
summer El Niño
South China
winter precipitation
author_facet Lingli Fan
Jianjun Xu
Huade Guan
author_sort Lingli Fan
title Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
title_short Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
title_full Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
title_fullStr Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
title_full_unstemmed Impacts of Different Onset Time El Niño Events on Winter Precipitation over South China
title_sort impacts of different onset time el niño events on winter precipitation over south china
publisher MDPI AG
series Atmosphere
issn 2073-4433
publishDate 2018-09-01
description Winter precipitation over South China tended to be much higher than normal for the spring El Niño events during 1979–2016. For the spring El Niño events, the meridional and zonal circulations served as a bridge, linking the warmer sea surface temperature (SST) in the eastern equatorial Pacific (EEP) and South China winter precipitation. This possible physical process can be described as follows: During boreal winter, a positive SST anomaly in the EEP was concurrent with strong anomalous convection activity over South China via anomalous Walker circulation, an anomalous Hadley Cell along 110°–130° E, and a zonal westward teleconnection wave train pattern at 700 hPa in the Northern Hemisphere. In addition, an anomalous pumping effect at 200 hPa contributed to the convective activity. Meanwhile, the western Pacific subtropical high moved southwards and strengthened at 500 hPa, and abnormal southwesterly winds brought plentiful water vapor to South China at 850 hPa. All these factors favored an increase in precipitation over South China. For the summer El Niño events, the aforementioned anomalies were weaker, which resulted in a precipitation close to normal over South China.
topic spring El Niño
summer El Niño
South China
winter precipitation
url http://www.mdpi.com/2073-4433/9/10/366
work_keys_str_mv AT linglifan impactsofdifferentonsettimeelninoeventsonwinterprecipitationoversouthchina
AT jianjunxu impactsofdifferentonsettimeelninoeventsonwinterprecipitationoversouthchina
AT huadeguan impactsofdifferentonsettimeelninoeventsonwinterprecipitationoversouthchina
_version_ 1725892202441211904

Similar Items