Robust Longitudinally Variable Responses of the ITCZ to a Myriad of Climate Forcings
Type de ressource
Auteurs/contributeurs
- Atwood, Alyssa R. (Auteur)
- Donohoe, Aaron (Auteur)
- Battisti, David S. (Auteur)
- Liu, Xiaojuan (Auteur)
- Pausata, Francesco S. R. (Auteur)
Titre
Robust Longitudinally Variable Responses of the ITCZ to a Myriad of Climate Forcings
Résumé
Abstract
We evaluate the longitudinal variation in meridional shifts of the tropical rainbelt in response to natural and anthropogenic forcings using a large suite of coupled climate model simulations. We find that the energetic framework of the zonal mean Hadley cell is generally not useful for characterizing shifts of the rainbelt at regional scales, regardless of the characteristics of the forcing. Forcings with large hemispheric asymmetry such as extratropical volcanic forcing, meltwater forcing, and the Last Glacial Maximum give rise to robust zonal mean shifts of the rainbelt; however, the direction and magnitude of the shift vary strongly as a function of longitude. Even the Pacific rainband does not shift uniformly under any forcing considered. Forcings with weak hemispheric asymmetry such as CO
2
and mid‐Holocene forcing give rise to zonal mean shifts that are small or absent, but the rainbelt does shift regionally in coherent ways across models that may have important dynamical consequences.
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Plain Language Summary
A band of heavy precipitation spanning the deep tropics is an essential feature of the climate system that diverse ecosystems and billions of people depend on. It is well known that this rainbelt, when averaged across all longitudes, shifts north and south in response to heating or cooling the atmosphere in one hemisphere more than the other; this framework has been widely applied to study past tropical rainfall changes under differing climate states. However, we show using many different climate model experiments that this framework does not apply to regional shifts in the rainbelt. Changes in the rainbelt vary from place to place, and thus, data documenting north or south shifts in one location cannot be used to infer similar shifts at other longitudes.
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Key Points
The zonal mean ITCZ framework is generally not useful for characterizing regional shifts of the tropical rainbelt, regardless of the forcing
Meridional shifts of the tropical rainbelt vary strongly with longitude under all forcings considered
All forcings produce robust regional shifts in the rainbelt that are larger than (and sometime oppose the direction of) the zonal mean shift
Publication
Geophysical Research Letters
Volume
47
Numéro
17
Pages
e2020GL088833
Date
2020-09-16
Abrév. de revue
Geophysical Research Letters
Langue
en
ISSN
0094-8276, 1944-8007
Consulté le
06/11/2024 18:53
Catalogue de bibl.
DOI.org (Crossref)
Référence
Atwood, A. R., Donohoe, A., Battisti, D. S., Liu, X., & Pausata, F. S. R. (2020). Robust Longitudinally Variable Responses of the ITCZ to a Myriad of Climate Forcings. Geophysical Research Letters, 47(17), e2020GL088833. https://doi.org/10.1029/2020GL088833
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