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Low and high frequency Madden–Julian oscillations in austral summer: interannual variations

Low and high frequency Madden–Julian oscillations in austral summer: interannual variations
Low and high frequency Madden–Julian oscillations in austral summer: interannual variations
the Madden–Julian oscillation (MJO) is the main component of intraseasonal variability of the tropical convection, with clear climatic impacts at an almost-global scale. Based on satellite observations, it is shown that there are two types of austral-summer MJO events (broadly defined as 30–120 days convective variability with eastward propagation of about 5 m/s). Equatorial MJO events have a period of 30–50 days and tend to be symmetric about the equator, whereas MJO events centered near 8°S tend to have a longer period of 55–100 days. The lower-frequency variability is associated with a strong upper-ocean response, having a clear signature in both sea surface temperature and its diurnal cycle. These two MJO types have different interannual variations, and are modulated by the Indian Ocean Dipole (IOD). Following a negative IOD event, the lower-frequency southern MJO variability increases, while the higher-frequency equatorial MJO strongly diminishes. We propose two possible explanations for this change in properties of the MJO. One possibility is that changes in the background atmospheric circulation after an IOD favour the development of the low-frequency MJO. The other possibility is that the shallower thermocline ridge and mixed layer depth, by enhancing SST intraseasonal variability and thus ocean–atmosphere coupling in the southwest Indian Ocean (the breeding ground of southern MJO onset), favour the lower-frequency southern MJO variability.
0930-7575
669-683
Izumo, Takeshi
085b9ff7-b631-46eb-8f2f-4e8a9b21c2af
Masson, Sébastien
3c93954e-649f-478b-a35e-d06879fb5d12
Vialard, Jérome
797ded89-e453-48df-a587-e8d8b86c3088
Boyer Montegut, Clément
f27f2b3d-b168-4f43-9229-a2978ebf4832
Behera, Swadhin K.
326cf26a-007f-419e-a1ca-26c3ba7d8269
Madec, Gurvan
ffb28deb-4bbd-4a4c-914f-492f813e4864
Takahashi, Keiko
d13fea86-af23-4a25-bf92-987256b81375
Yamagata, Toshio
94509afb-faba-4a4b-9709-2d0dbb8f8635
Izumo, Takeshi
085b9ff7-b631-46eb-8f2f-4e8a9b21c2af
Masson, Sébastien
3c93954e-649f-478b-a35e-d06879fb5d12
Vialard, Jérome
797ded89-e453-48df-a587-e8d8b86c3088
Boyer Montegut, Clément
f27f2b3d-b168-4f43-9229-a2978ebf4832
Behera, Swadhin K.
326cf26a-007f-419e-a1ca-26c3ba7d8269
Madec, Gurvan
ffb28deb-4bbd-4a4c-914f-492f813e4864
Takahashi, Keiko
d13fea86-af23-4a25-bf92-987256b81375
Yamagata, Toshio
94509afb-faba-4a4b-9709-2d0dbb8f8635

Izumo, Takeshi, Masson, Sébastien, Vialard, Jérome, Boyer Montegut, Clément, Behera, Swadhin K., Madec, Gurvan, Takahashi, Keiko and Yamagata, Toshio (2010) Low and high frequency Madden–Julian oscillations in austral summer: interannual variations. Climate Dynamics, 35 (4), 669-683. (doi:10.1007/s00382-009-0655-z).

Record type: Article

Abstract

the Madden–Julian oscillation (MJO) is the main component of intraseasonal variability of the tropical convection, with clear climatic impacts at an almost-global scale. Based on satellite observations, it is shown that there are two types of austral-summer MJO events (broadly defined as 30–120 days convective variability with eastward propagation of about 5 m/s). Equatorial MJO events have a period of 30–50 days and tend to be symmetric about the equator, whereas MJO events centered near 8°S tend to have a longer period of 55–100 days. The lower-frequency variability is associated with a strong upper-ocean response, having a clear signature in both sea surface temperature and its diurnal cycle. These two MJO types have different interannual variations, and are modulated by the Indian Ocean Dipole (IOD). Following a negative IOD event, the lower-frequency southern MJO variability increases, while the higher-frequency equatorial MJO strongly diminishes. We propose two possible explanations for this change in properties of the MJO. One possibility is that changes in the background atmospheric circulation after an IOD favour the development of the low-frequency MJO. The other possibility is that the shallower thermocline ridge and mixed layer depth, by enhancing SST intraseasonal variability and thus ocean–atmosphere coupling in the southwest Indian Ocean (the breeding ground of southern MJO onset), favour the lower-frequency southern MJO variability.

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Published date: 2010
Organisations: Marine Systems Modelling

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Local EPrints ID: 174873
URI: http://eprints.soton.ac.uk/id/eprint/174873
ISSN: 0930-7575
PURE UUID: fcf3c34b-fa20-44c9-baf8-366a648c7ac7

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Date deposited: 17 Feb 2011 15:06
Last modified: 14 Mar 2024 02:35

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Contributors

Author: Takeshi Izumo
Author: Sébastien Masson
Author: Jérome Vialard
Author: Clément Boyer Montegut
Author: Swadhin K. Behera
Author: Gurvan Madec
Author: Keiko Takahashi
Author: Toshio Yamagata

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