Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction

This study investigates the out-of-phase change in the Siberian High (SH) between December and January (stronger than normal in December and weaker than normal in January, and vice versa). The results show that the monthly reversal frequency of the SH between December and January increases significa...

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Published in:Frontiers in Earth Science
Main Authors: Hongqing Yang, Ke Fan
Format: Article in Journal/Newspaper
Language:English
Published: Frontiers Media S.A. 2021
Subjects:
November snow cover over Siberia
phase reversal
Siberian high
troposphere-stratosphere interaction
intraseasonal climate prediction
Science
Q
Arctic
albedo
Sea ice
Siberia
Online Access:https://doi.org/10.3389/feart.2021.748484
https://doaj.org/article/331856c2eba94a40baa8ae608c29dfb9
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spelling ftdoajarticles:oai:doaj.org/article:331856c2eba94a40baa8ae608c29dfb9 2023-05-15T13:11:55+02:00 Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction Hongqing Yang Ke Fan 2021-09-01T00:00:00Z https://doi.org/10.3389/feart.2021.748484 https://doaj.org/article/331856c2eba94a40baa8ae608c29dfb9 EN eng Frontiers Media S.A. https://www.frontiersin.org/articles/10.3389/feart.2021.748484/full https://doaj.org/toc/2296-6463 2296-6463 doi:10.3389/feart.2021.748484 https://doaj.org/article/331856c2eba94a40baa8ae608c29dfb9 Frontiers in Earth Science, Vol 9 (2021) November snow cover over Siberia phase reversal Siberian high troposphere-stratosphere interaction intraseasonal climate prediction Science Q article 2021 ftdoajarticles https://doi.org/10.3389/feart.2021.748484 2022-12-31T07:58:54Z This study investigates the out-of-phase change in the Siberian High (SH) between December and January (stronger than normal in December and weaker than normal in January, and vice versa). The results show that the monthly reversal frequency of the SH between December and January increases significantly after 2000 from 30% (1981–2000) to 63% (2001-2019). Correspondingly, the influence of November snow cover over Siberia on the phase reversal of the SH has intensified after 2000. The reasons may be as follows. Higher snow depth over Siberia (SSD) in November corresponds to stronger diabatic cooling and increased snow accumulation over Siberia in November and December, which may strengthen the SH in December via the positive feedback of snow albedo. The dynamic mechanisms between the higher SSD in November and weaker SH in January are further investigated from the perspective of troposphere–stratosphere interaction. Such anomalously higher SSD with strong upward heat flux induces the upward-propagating wave activity flux in November and December over the Urals and Siberia, leading to a weaker and warmer stratospheric polar vortex in January. Subsequently, the anomalies of the stratospheric polar vortex signal propagate downwards, giving rise to a negative Arctic Oscillation–like structure in the troposphere and a weakening of the SH in January. This mechanism can be partly reproduced in CMIP6. Additionally, the variability of the September–October Arctic sea ice mainly leads to coherent variations of the SH in December and January via the eddy–mean flow interaction before 2000. Furthermore, the preceding November snow cover over Siberia enhances the intraseasonal prediction skill for the winter SH after 2000. Meanwhile, considering the previous November SSD, the prediction accuracy for the out-of-phase change in the SH between December and January increases from 16% (outputs of the NCEP’s Climate Forecast System, version 2) to 75%. Article in Journal/Newspaper albedo Arctic Sea ice Siberia Directory of Open Access Journals: DOAJ Articles Arctic Frontiers in Earth Science 9
institution Open Polar
collection Directory of Open Access Journals: DOAJ Articles
op_collection_id ftdoajarticles
language English
topic November snow cover over Siberia
phase reversal
Siberian high
troposphere-stratosphere interaction
intraseasonal climate prediction
Science
Q
spellingShingle November snow cover over Siberia
phase reversal
Siberian high
troposphere-stratosphere interaction
intraseasonal climate prediction
Science
Q
Hongqing Yang
Ke Fan
Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
topic_facet November snow cover over Siberia
phase reversal
Siberian high
troposphere-stratosphere interaction
intraseasonal climate prediction
Science
Q
description This study investigates the out-of-phase change in the Siberian High (SH) between December and January (stronger than normal in December and weaker than normal in January, and vice versa). The results show that the monthly reversal frequency of the SH between December and January increases significantly after 2000 from 30% (1981–2000) to 63% (2001-2019). Correspondingly, the influence of November snow cover over Siberia on the phase reversal of the SH has intensified after 2000. The reasons may be as follows. Higher snow depth over Siberia (SSD) in November corresponds to stronger diabatic cooling and increased snow accumulation over Siberia in November and December, which may strengthen the SH in December via the positive feedback of snow albedo. The dynamic mechanisms between the higher SSD in November and weaker SH in January are further investigated from the perspective of troposphere–stratosphere interaction. Such anomalously higher SSD with strong upward heat flux induces the upward-propagating wave activity flux in November and December over the Urals and Siberia, leading to a weaker and warmer stratospheric polar vortex in January. Subsequently, the anomalies of the stratospheric polar vortex signal propagate downwards, giving rise to a negative Arctic Oscillation–like structure in the troposphere and a weakening of the SH in January. This mechanism can be partly reproduced in CMIP6. Additionally, the variability of the September–October Arctic sea ice mainly leads to coherent variations of the SH in December and January via the eddy–mean flow interaction before 2000. Furthermore, the preceding November snow cover over Siberia enhances the intraseasonal prediction skill for the winter SH after 2000. Meanwhile, considering the previous November SSD, the prediction accuracy for the out-of-phase change in the SH between December and January increases from 16% (outputs of the NCEP’s Climate Forecast System, version 2) to 75%.
format Article in Journal/Newspaper
author Hongqing Yang
Ke Fan
author_facet Hongqing Yang
Ke Fan
author_sort Hongqing Yang
title Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
title_short Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
title_full Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
title_fullStr Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
title_full_unstemmed Strengthened Impacts of November Snow Cover Over Siberia on the Out-of-phase Change in the Siberian High Between December and January Since 2000 and Implication for Intraseasonal Climate Prediction
title_sort strengthened impacts of november snow cover over siberia on the out-of-phase change in the siberian high between december and january since 2000 and implication for intraseasonal climate prediction
publisher Frontiers Media S.A.
publishDate 2021
url https://doi.org/10.3389/feart.2021.748484
https://doaj.org/article/331856c2eba94a40baa8ae608c29dfb9
geographic Arctic
geographic_facet Arctic
genre albedo
Arctic
Sea ice
Siberia
genre_facet albedo
Arctic
Sea ice
Siberia
op_source Frontiers in Earth Science, Vol 9 (2021)
op_relation https://www.frontiersin.org/articles/10.3389/feart.2021.748484/full
https://doaj.org/toc/2296-6463
2296-6463
doi:10.3389/feart.2021.748484
https://doaj.org/article/331856c2eba94a40baa8ae608c29dfb9
op_doi https://doi.org/10.3389/feart.2021.748484
container_title Frontiers in Earth Science
container_volume 9
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