CPAESS Discovery Seminar: The Origin and Structure of the Arabian Sea Monsoon Onset Vortex

When:  Sep 18, 2024 from 11:00 to 12:00 (MT)
Associated with  Opportunities

Please join CPAESS for a virtual seminar talk with Shreyas Dhavale, WINGS Dissertation Fellow (NOAA WPO and UCAR CPAESS) and Ph.D. Candidate at North Carolina State University

Title: The Origin and Structure of the Arabian Sea Monsoon Onset Vortex
 

When: Wednesday, September 18, 2024
11:00 AM MT (Virtual)

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About Shreyas Dhavale

Shreyas Dhavale is a recipient of the NOAA Weather Program Office Innovation for Next Generation Scientists (WINGS) Fellowship and a PhD Candidate at the Department of Marine, Earth, and Atmospheric Sciences at North Carolina State University. 

His PhD research is on the 'Monsoon Onset Vortex (MOV),' which is a synoptic weather system that forms in the Arabian Sea in some years during the onset of the Indian Summer Monsoon. He studies the origin, structure, and predictability of the MOV in the Reanalysis data, Satellite observations, and numerical models such as WRF and UFS. 

Shreyas is also a recipient of the 2024 John S. Irwin Award for Scientific Excellence from the Department of Marine, Earth, and Atmospheric Sciences at North Carolina State University. 

Description

In certain years, during the onset of the Indian Summer Monsoon, a synoptic scale vortex, known as the Monsoon onset vortex (MOV) forms in the Arabian Sea within the seasonal northward propagating region of precipitating convection. Many MOVs intensify into tropical cyclones and significantly impact the onset and advance of the Monsoon.

Past studies have highlighted the role of hydrodynamic instability of the Somali Jet in the formation of the MOV. However, the role of precipitating moist convection in MOV formation remains unexplored. 

This study examines the composite of 23 past MOVs using reanalysis data. Vertical alignment of a low-level and a mid-level vortex is found to be the most common pathway to MOV formation. A potential vorticity budget is used to clarify the leading physical processes during the MOV formation stage. It shows that the observed structure of the MOV is governed by diabatic heating and vertical advection to a leading order. Both the low and mid-level vortices in the developing MOV are attributed to moist convection.

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Watch the live broadcast

All participants will access the seminar via the webcast link and utilize Slido during the seminar for questions.

The talk will be recorded and published on the CPAESS YouTube Channel.

Questions? Contact Dawn Mullally
 

Location

Online Instructions: