Article

Abstract

• A global model with superparameterized physics is used to shed light on the observed regionality of convectively coupled Kelvin waves and the Madden-Julian Oscillation (MJO). A series of aquaplanet simulations over zonally uniform sea-surface temperatures is performed, in which the axisymmetric structure of the background zonal flow is altered through nudging, while maintaining a quasi-fixed rainfall climatology. Results show that nudging at the equator to match profiles typical of the Indo-Pacific or eastern Pacific sectors yields eastward-moving tropical rain spectra typical of those sectors. Two different mechanistic pathways are identified as being responsible for this mean-flow dependence, in addition to Doppler shifting effects. The first is through shifts of the Rossby wave critical line in the subtropical upper troposphere that affect the lateral forcing of Kelvin-mode circulations at the equator by eastward and equatorward-propagating eddies impinging on the tropics from higher latitudes. The second is through changes in the strength of the mean cyclonic shear in the lower tropical troposphere that affect the degree to which intraseasonal fluctuations in Kelvin-mode zonal winds modulate the activity of higher-frequency equatorial Rossby-type eddies. In cases where the mean low-level cyclonic shear is enhanced, the strength of this modulation, referred to as “shear-induced eddy modulation” or SIEM, is also seen to be enhanced, such that MJO-like modes of variability are rendered either unstable or near neutral, depending on the strength of the shear.

   

Creator

• Kiladis, G N
• Tulich, S N

Date Issued

• 2021

Academic Affiliation

• Cooperative Institute for Research in Environmental Sciences

Journal Title

• Journal of Advances in Modeling Earth Systems

Journal Issue/Number

• 9

Journal Volume

• 13

Last Modified

• 2022-08-03

Resource Type

• Article

Rights Statement

• In Copyright

DOI

•  https://doi.org/10.1029/2021MS002528

ISSN

• 1942-2466

Language

• English [eng]

License

• Creative Commons BY Attribution 4.0 International

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