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Hauptverfasser: Quan, Heng, Yang, Da, Boos, William, Shaw, Tiffany, Ge, Huazhi, Zeng, Yaoxuan, KleinStern, Carly
Format: Preprint
Veröffentlicht: 2026
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2605.21875
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author Quan, Heng
Yang, Da
Boos, William
Shaw, Tiffany
Ge, Huazhi
Zeng, Yaoxuan
KleinStern, Carly
author_facet Quan, Heng
Yang, Da
Boos, William
Shaw, Tiffany
Ge, Huazhi
Zeng, Yaoxuan
KleinStern, Carly
contents The African easterly jet (AEJ) is a prominent circulation feature in the tropical atmosphere. It transports mineral dust and generates easterly waves that serve as seeds for hurricanes. Conventional wisdom holds that the AEJ is in thermal wind balance with the positive meridional temperature gradient over North Africa. Here, using reanalysis data, we show that the negative meridional moisture gradient substantially counteracts the effect of the temperature gradient on density in that balance, diagnostically accounting for a 30\% reduction of the AEJ magnitude. Using CMIP6 data, we further show that this effect of vapor buoyancy on the AEJ strengthens under global warming, highlighting the critical role of the spatial distribution of moisture on large-scale circulation. Analysis of the AEJ in CMIP6 models confirms that some models do not include vapor buoyancy in their governing equations, raising questions about the relevance of their projections of climate change in that region.
format Preprint
id arxiv_https___arxiv_org_abs_2605_21875
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Water vapor buoyancy and the African easterly jet
Quan, Heng
Yang, Da
Boos, William
Shaw, Tiffany
Ge, Huazhi
Zeng, Yaoxuan
KleinStern, Carly
Atmospheric and Oceanic Physics
The African easterly jet (AEJ) is a prominent circulation feature in the tropical atmosphere. It transports mineral dust and generates easterly waves that serve as seeds for hurricanes. Conventional wisdom holds that the AEJ is in thermal wind balance with the positive meridional temperature gradient over North Africa. Here, using reanalysis data, we show that the negative meridional moisture gradient substantially counteracts the effect of the temperature gradient on density in that balance, diagnostically accounting for a 30\% reduction of the AEJ magnitude. Using CMIP6 data, we further show that this effect of vapor buoyancy on the AEJ strengthens under global warming, highlighting the critical role of the spatial distribution of moisture on large-scale circulation. Analysis of the AEJ in CMIP6 models confirms that some models do not include vapor buoyancy in their governing equations, raising questions about the relevance of their projections of climate change in that region.
title Water vapor buoyancy and the African easterly jet
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2605.21875