Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study

The upper-level jet stream, a narrow band of maximum wind speed in the mid-latitude westerlies, exerts a considerable influence on the global climate by modulating the transport and distribution of momentum, heat and moisture. In this study by using four high-resolution models in the Paleoclimate Mo...

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Published in:	Atmosphere
Main Authors:	Chuchu Xu, Mi Yan, Liang Ning, Jian Liu
Format:	Text
Language:	English
Published:	Multidisciplinary Digital Publishing Institute 2020
Subjects:	mid-latitude westerly jet stream mid-Holocene multi-model simulation mechanisms Arctic Pacific North Atlantic
Online Access:	https://doi.org/10.3390/atmos11111193

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spelling	ftmdpi:oai:mdpi.com:/2073-4433/11/11/1193/ 2023-08-20T04:04:55+02:00 Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study Chuchu Xu Mi Yan Liang Ning Jian Liu agris 2020-11-03 application/pdf https://doi.org/10.3390/atmos11111193 EN eng Multidisciplinary Digital Publishing Institute Climatology https://dx.doi.org/10.3390/atmos11111193 https://creativecommons.org/licenses/by/4.0/ Atmosphere; Volume 11; Issue 11; Pages: 1193 mid-latitude westerly jet stream mid-Holocene multi-model simulation mechanisms Text 2020 ftmdpi https://doi.org/10.3390/atmos11111193 2023-08-01T00:24:10Z The upper-level jet stream, a narrow band of maximum wind speed in the mid-latitude westerlies, exerts a considerable influence on the global climate by modulating the transport and distribution of momentum, heat and moisture. In this study by using four high-resolution models in the Paleoclimate Modelling Intercomparison Project phase 3, the changes of position and intensity of the northern hemisphere westerly jet at 200 hPa in summer during the mid-Holocene (MH), as well as the related mechanisms, are investigated. The four models show similar performance on the westerly jet. At the hemispheric scale, the simulated westerly jet has a poleward shift during the MH compared to the preindustrial period. The warming in arctic and cooling in the tropics during the MH are caused by the orbital changes of the earth and the precipitation changes, and it could lead to the weakened meridional temperature gradient and pressure gradient, which might account for the poleward shift of the westerly jet from the thermodynamic perspective. From the dynamic perspective, two maximum centers of eddy kinetic energy are simulated over the North Pacific and North Atlantic with the north deviation, which could cause the northward movement of the westerly jet. The weakening of the jet stream is associated with the change of the Hadley cell and the meridional temperature gradient. The largest weakening is over the Pacific Ocean where both the dynamic and the thermodynamic processes have weakening effects. The smallest weakening is over the Atlantic Ocean, and it is induced by the offset effects of dynamic processes and thermodynamic processes. The weakening over the Eurasia is mainly caused by the dynamic processes. Text Arctic North Atlantic MDPI Open Access Publishing Arctic Pacific Atmosphere 11 11 1193
institution	Open Polar
collection	MDPI Open Access Publishing
op_collection_id	ftmdpi
language	English
topic	mid-latitude westerly jet stream mid-Holocene multi-model simulation mechanisms
spellingShingle	mid-latitude westerly jet stream mid-Holocene multi-model simulation mechanisms Chuchu Xu Mi Yan Liang Ning Jian Liu Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
topic_facet	mid-latitude westerly jet stream mid-Holocene multi-model simulation mechanisms
description	The upper-level jet stream, a narrow band of maximum wind speed in the mid-latitude westerlies, exerts a considerable influence on the global climate by modulating the transport and distribution of momentum, heat and moisture. In this study by using four high-resolution models in the Paleoclimate Modelling Intercomparison Project phase 3, the changes of position and intensity of the northern hemisphere westerly jet at 200 hPa in summer during the mid-Holocene (MH), as well as the related mechanisms, are investigated. The four models show similar performance on the westerly jet. At the hemispheric scale, the simulated westerly jet has a poleward shift during the MH compared to the preindustrial period. The warming in arctic and cooling in the tropics during the MH are caused by the orbital changes of the earth and the precipitation changes, and it could lead to the weakened meridional temperature gradient and pressure gradient, which might account for the poleward shift of the westerly jet from the thermodynamic perspective. From the dynamic perspective, two maximum centers of eddy kinetic energy are simulated over the North Pacific and North Atlantic with the north deviation, which could cause the northward movement of the westerly jet. The weakening of the jet stream is associated with the change of the Hadley cell and the meridional temperature gradient. The largest weakening is over the Pacific Ocean where both the dynamic and the thermodynamic processes have weakening effects. The smallest weakening is over the Atlantic Ocean, and it is induced by the offset effects of dynamic processes and thermodynamic processes. The weakening over the Eurasia is mainly caused by the dynamic processes.
format	Text
author	Chuchu Xu Mi Yan Liang Ning Jian Liu
author_facet	Chuchu Xu Mi Yan Liang Ning Jian Liu
author_sort	Chuchu Xu
title	Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
title_short	Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
title_full	Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
title_fullStr	Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
title_full_unstemmed	Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study
title_sort	summer westerly jet in northern hemisphere during the mid-holocene: a multi-model study
publisher	Multidisciplinary Digital Publishing Institute
publishDate	2020
url	https://doi.org/10.3390/atmos11111193
op_coverage	agris
geographic	Arctic Pacific
geographic_facet	Arctic Pacific
genre	Arctic North Atlantic
genre_facet	Arctic North Atlantic
op_source	Atmosphere; Volume 11; Issue 11; Pages: 1193
op_relation	Climatology https://dx.doi.org/10.3390/atmos11111193
op_rights	https://creativecommons.org/licenses/by/4.0/
op_doi	https://doi.org/10.3390/atmos11111193
container_title	Atmosphere
container_volume	11
container_issue	11
container_start_page	1193
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Summer Westerly Jet in Northern Hemisphere during the Mid-Holocene: A Multi-Model Study

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