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QBO deepens MJO convection

Earth Sciences

QBO deepens MJO convection

D. Jin, D. Kim, et al.

Discover how the Quasi-Biennial Oscillation (QBO) influences extreme weather patterns! This research reveals that during easterly QBO winters, deep convective systems grow taller, enhancing MJO activity through improved cloud-radiative feedback. Conducted by Daeho Jin, Daehyun Kim, Seok-Woo Son, and Lazaros Oreopoulos, this study sheds new light on atmospheric processes.... show more
Abstract
The underlying mechanism that couples the Quasi-Biennial Oscillation (QBO) and the Madden-Julian oscillation (MJO) has remained elusive, challenging our understanding of both phenomena. A popular hypothesis about the QBO-MJO connection is that the vertical extent of MJO convection is strongly modulated by the QBO. However, this hypothesis has not been verified observationally. Here we show that the cloud-top pressure and brightness temperature of deep convection and anvil clouds are systematically lower in the easterly QBO (EQBO) winters than in the westerly QBO (WQBO) winters, indicating that the vertical growth of deep convective systems within MJO envelopes is facilitated by the EQBO mean state. Moreover, the deeper clouds during EQBO winters are more effective at reducing longwave radiation escaping to space and thereby enhancing longwave cloud-radiative feedback within MJO envelopes. Our results provide robust observational evidence of the enhanced MJO activity during EQBO winters by mean state changes induced by the QBO.
Publisher
Nature Communications
Published On
Jul 10, 2023
Authors
Daeho Jin, Daehyun Kim, Seok-Woo Son, Lazaros Oreopoulos
DOI
https://doi.org/10.1038/s41467-023-39465-7
Tags
Quasi-Biennial Oscillation
Madden-Julian Oscillation
deep convection
cloud-radiative feedback
vertical growth
weather patterns

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