Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars

Jianyuan Wang; Wen Yi; Xianghui Xue; Jianfei Wu; Hailun Ye; Tingdi Chen; Jian Li; Jie Zeng; Jinsong Chen; Zonghua Ding; Na Li; Robert A. Vincent; Iain M. Reid; Paulo P. Batista; Ricardo A. Buriti; Toshitaka Tsuda; Nicholas J. Mitchell; Xiankang Dou

doi:10.1029/2025JD044411

Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars

Jianyuan Wang, Wen Yi, Xianghui Xue, Jianfei Wu, Hailun Ye, Tingdi Chen, Jian Li, Jie Zeng, Jinsong Chen, Zonghua Ding, Na Li, Robert A. Vincent, Iain M. Reid, Paulo P. Batista, Ricardo A. Buriti, Toshitaka Tsuda, Nicholas J. Mitchell, Xiankang Dou

Department of Electronic & Electrical Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

In this study, we report the response of migrating diurnal tides (DW1) in the mesosphere and lower thermosphere (MLT) region to the Madden‒Julian oscillation (MJO). The DW1 amplitudes are decomposed from the neutral horizontal wind observed by four meteor radars in the equatorial region. The DW1 and zonal wind in the equatorial MLT region show consistent intraseasonal variations, implying that the upward propagating DW1 can affect the mesospheric zonal wind. By jointly analyzing the real-time multivariate MJO (RMM) indices and mesospheric DW1, we found that DW1 responds strongly to the MJO during both boreal winter (difference relative to seasonal means: ∼20%–25%) and summer (∼25%). The MJO convection affects the mesospheric DW1 by modulating the solar radiative absorption by water vapor and latent heat release in the troposphere. The seasonal difference in DW1–MJO response can be attributed to a slight weakening of the DW1 tidal heating sources during MJO phases 1–4 and a significant enhancement during phases 6–7 during summer, driven by the moisture transport from the Indian Ocean and Pacific to the East Asian continent. This finding provides an opportunity to the understanding of the coupling between the troposphere and the mesosphere through migrating tides.

Original language	English
Article number	e2025JD044411
Journal	Journal of Geophysical Research: Atmospheres
Volume	130
Issue number	24
Early online date	18 Dec 2025
DOIs	https://doi.org/10.1029/2025JD044411
Publication status	Published - 28 Dec 2025

Data Availability Statement

The Kototabang meteor radar data are available from http://database.rish.kyoto‐u.ac.jp/arch/iugonet/mwr_ktb/index_mwr_ktb.html. The Ascension Island meteor radar data are available from https://data.ceda.ac.uk/badc/meteor‐radars/data/ascension. The Cariri meteor radar data are available from https://doi.org/10.5281/zenodo.6575792 (Wang & Batista, 2022). The Darwin meteor radar data are available from https://doi.org/10.5281/zenodo.6575832 (Wang & Reid, 2022). The real‐time multivariate MJO indices are available at http://www.bom.gov.au/climate/mjo/graphics/rmm.74toRealtime.txt. The outgoing longwave radiations are available from https://doi.org/10.7289/V5SJ1HH2 (Lee & NOAA CDR Program, 2011). The MERRA‒2 reanalysis data set is availablefrom https://doi.org/10.5067/9NCR9DDDOPFI and https://doi.org/10.5067/QBZ6MG944HW0 (GMAO, 2015a,2015b). The SD‒WACCM data set utilized in this study is available at https://doi.org/10.6084/m9.figshare.19777918 (Cen, 2022)

Keywords

Madden-Julian oscillation
meteor radar
migrating tides

ASJC Scopus subject areas

Geophysics
Atmospheric Science
Space and Planetary Science
Earth and Planetary Sciences (miscellaneous)

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10.1029/2025JD044411

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Wang, J., Yi, W., Xue, X., Wu, J., Ye, H., Chen, T., Li, J., Zeng, J., Chen, J., Ding, Z., Li, N., Vincent, R. A., Reid, I. M., Batista, P. P., Buriti, R. A., Tsuda, T., Mitchell, N. J., & Dou, X. (2025). Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars. Journal of Geophysical Research: Atmospheres, 130(24), Article e2025JD044411. https://doi.org/10.1029/2025JD044411

Wang, J, Yi, W, Xue, X, Wu, J, Ye, H, Chen, T, Li, J, Zeng, J, Chen, J, Ding, Z, Li, N, Vincent, RA, Reid, IM, Batista, PP, Buriti, RA, Tsuda, T, Mitchell, NJ & Dou, X 2025, 'Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars', Journal of Geophysical Research: Atmospheres, vol. 130, no. 24, e2025JD044411. https://doi.org/10.1029/2025JD044411

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title = "Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars",

abstract = "In this study, we report the response of migrating diurnal tides (DW1) in the mesosphere and lower thermosphere (MLT) region to the Madden‒Julian oscillation (MJO). The DW1 amplitudes are decomposed from the neutral horizontal wind observed by four meteor radars in the equatorial region. The DW1 and zonal wind in the equatorial MLT region show consistent intraseasonal variations, implying that the upward propagating DW1 can affect the mesospheric zonal wind. By jointly analyzing the real-time multivariate MJO (RMM) indices and mesospheric DW1, we found that DW1 responds strongly to the MJO during both boreal winter (difference relative to seasonal means: ∼20\%–25\%) and summer (∼25\%). The MJO convection affects the mesospheric DW1 by modulating the solar radiative absorption by water vapor and latent heat release in the troposphere. The seasonal difference in DW1–MJO response can be attributed to a slight weakening of the DW1 tidal heating sources during MJO phases 1–4 and a significant enhancement during phases 6–7 during summer, driven by the moisture transport from the Indian Ocean and Pacific to the East Asian continent. This finding provides an opportunity to the understanding of the coupling between the troposphere and the mesosphere through migrating tides.",

keywords = "Madden-Julian oscillation, meteor radar, migrating tides",

author = "Jianyuan Wang and Wen Yi and Xianghui Xue and Jianfei Wu and Hailun Ye and Tingdi Chen and Jian Li and Jie Zeng and Jinsong Chen and Zonghua Ding and Na Li and Vincent, \{Robert A.\} and Reid, \{Iain M.\} and Batista, \{Paulo P.\} and Buriti, \{Ricardo A.\} and Toshitaka Tsuda and Mitchell, \{Nicholas J.\} and Xiankang Dou",

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AU - Wang, Jianyuan

AU - Yi, Wen

AU - Xue, Xianghui

AU - Wu, Jianfei

AU - Ye, Hailun

AU - Chen, Tingdi

AU - Li, Jian

AU - Zeng, Jie

AU - Chen, Jinsong

AU - Ding, Zonghua

AU - Li, Na

AU - Vincent, Robert A.

AU - Reid, Iain M.

AU - Batista, Paulo P.

AU - Buriti, Ricardo A.

AU - Tsuda, Toshitaka

AU - Mitchell, Nicholas J.

AU - Dou, Xiankang

PY - 2025/12/28

Y1 - 2025/12/28

N2 - In this study, we report the response of migrating diurnal tides (DW1) in the mesosphere and lower thermosphere (MLT) region to the Madden‒Julian oscillation (MJO). The DW1 amplitudes are decomposed from the neutral horizontal wind observed by four meteor radars in the equatorial region. The DW1 and zonal wind in the equatorial MLT region show consistent intraseasonal variations, implying that the upward propagating DW1 can affect the mesospheric zonal wind. By jointly analyzing the real-time multivariate MJO (RMM) indices and mesospheric DW1, we found that DW1 responds strongly to the MJO during both boreal winter (difference relative to seasonal means: ∼20%–25%) and summer (∼25%). The MJO convection affects the mesospheric DW1 by modulating the solar radiative absorption by water vapor and latent heat release in the troposphere. The seasonal difference in DW1–MJO response can be attributed to a slight weakening of the DW1 tidal heating sources during MJO phases 1–4 and a significant enhancement during phases 6–7 during summer, driven by the moisture transport from the Indian Ocean and Pacific to the East Asian continent. This finding provides an opportunity to the understanding of the coupling between the troposphere and the mesosphere through migrating tides.

AB - In this study, we report the response of migrating diurnal tides (DW1) in the mesosphere and lower thermosphere (MLT) region to the Madden‒Julian oscillation (MJO). The DW1 amplitudes are decomposed from the neutral horizontal wind observed by four meteor radars in the equatorial region. The DW1 and zonal wind in the equatorial MLT region show consistent intraseasonal variations, implying that the upward propagating DW1 can affect the mesospheric zonal wind. By jointly analyzing the real-time multivariate MJO (RMM) indices and mesospheric DW1, we found that DW1 responds strongly to the MJO during both boreal winter (difference relative to seasonal means: ∼20%–25%) and summer (∼25%). The MJO convection affects the mesospheric DW1 by modulating the solar radiative absorption by water vapor and latent heat release in the troposphere. The seasonal difference in DW1–MJO response can be attributed to a slight weakening of the DW1 tidal heating sources during MJO phases 1–4 and a significant enhancement during phases 6–7 during summer, driven by the moisture transport from the Indian Ocean and Pacific to the East Asian continent. This finding provides an opportunity to the understanding of the coupling between the troposphere and the mesosphere through migrating tides.

KW - Madden-Julian oscillation

KW - meteor radar

KW - migrating tides

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DO - 10.1029/2025JD044411

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SN - 2169-897X

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JO - Journal of Geophysical Research: Atmospheres

JF - Journal of Geophysical Research: Atmospheres

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M1 - e2025JD044411

ER -

Impact of the Madden‒Julian Oscillation on Mesospheric Migrating Diurnal Tides Observed by Multiple Equatorial Meteor Radars

Abstract

Data Availability Statement

Keywords

ASJC Scopus subject areas

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