WESTERLY JET AND ITS EFFECTS ON PRECIPITATION IN THE THIRD POLE
Abstract
This study explores the upper troposphere and monsoon-influenced climate dynamics of the Tibetan plateau
(TP) and its surrounding regions in East Asia, also known as the Third Pole, for the summer season (JJA) and
the period of 1980-2019. The domain is characterized by mountainous and remote environments, where
climatological observations are sparse. The complicated topography is dynamically and thermally modifying
the atmosphere, especially during the summer months with the onset of the monsoon season, which in turn
alters upper troposphere structures such as the East Asian Subtropical Westerly Jet (EASWJ). The study's
primary focus was on the key features (position and strength) of EASWJ and its effects on precipitation
patterns as seen in high resolution regional climate models (RCM) and modern global reanalyses. More
specifically, the study illustrated how each reanalysis performs in locating the upper troposphere westerly jet
and in determining its intensity values. 7 global reanalyses were utilized in the current work, specifically,
ERA5, ERA-Interim, JRA-55, MERRA-2, NCEP-1, NCEP-2, and CFSR covering the period 1980-2019. 9
km simulations done by WRF during the same period are also analyzed. While there was generally high
agreement on its meridional variability and intensity, the greatest uncertainties were shown to be about its
longitudinal position and intensity over complex topography. Generally, reanalyses agree with each other
quite well regarding the response of precipitation pattern to the changes in EASWJ, both in position and
strength. However, one of the higher resolution reanalysis, CSFR, displayed disparities in precipitation
patterns, which is due to a different pattern of the response of the water vapor transport to the change in
EASWJ.
Degree
Student essay
Collections
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Date
2024-06-25Author
Papagiannopoulos, Nikolaos
Language
eng