Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism

Variations of sea ice can exert significant impacts on the atmospheric general circulation, temperature and precipitation, resulting in anomalous land surface conditions such as snow cover. In this study, we explored the possible impacts of the abnormal late autumn Arctic sea ice on winter snow dept...

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Published in:Atmospheric Research
Main Authors: Xu, Bei, Chen, Haishan, Gao, Chujie, Zhou, Botao, Sun, Shanlei, Zhu, Siguang
Format: Report
Language:English
Published: ELSEVIER SCIENCE INC 2019
Subjects:
Eurasian snow cover
Arctic Sea Ice
Arctic oscillation
Regional response
ATMOSPHERIC CIRCULATION
PHYSICAL-MECHANISMS
VARIABILITY
CLIMATE
TEMPERATURE
HEMISPHERE
IMPACT
OSCILLATION
LINKING
PATTERN
Meteorology & Atmospheric Sciences
Arctic
Sea ice
Online Access:http://ir.ieecas.cn/handle/361006/14127
https://doi.org/10.1016/j.atmosres.2019.02.010
id ftchinacascieeca:oai:ir.ieecas.cn:361006/14127
record_format openpolar
spelling ftchinacascieeca:oai:ir.ieecas.cn:361006/14127 2023-06-11T04:08:42+02:00 Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism Xu, Bei Chen, Haishan Gao, Chujie Zhou, Botao Sun, Shanlei Zhu, Siguang 2019-07-01 http://ir.ieecas.cn/handle/361006/14127 https://doi.org/10.1016/j.atmosres.2019.02.010 英语 eng ELSEVIER SCIENCE INC ATMOSPHERIC RESEARCH http://ir.ieecas.cn/handle/361006/14127 doi:10.1016/j.atmosres.2019.02.010 Eurasian snow cover Arctic Sea Ice Arctic oscillation Regional response ATMOSPHERIC CIRCULATION PHYSICAL-MECHANISMS VARIABILITY CLIMATE TEMPERATURE HEMISPHERE IMPACT OSCILLATION LINKING PATTERN Meteorology & Atmospheric Sciences 期刊论文 2019 ftchinacascieeca https://doi.org/10.1016/j.atmosres.2019.02.010 2023-05-08T13:24:34Z Variations of sea ice can exert significant impacts on the atmospheric general circulation, temperature and precipitation, resulting in anomalous land surface conditions such as snow cover. In this study, we explored the possible impacts of the abnormal late autumn Arctic sea ice on winter snow depth over the Eurasia, especially the mechanism responsible for regional response of the snow cover to the sea ice anomalies through both observational analysis based on multi-source snow depth data and numerical sensitivity experiments. Results show that with decreasing sea ice in the Barents and Kara Seas (BKS) region, the snow depth exhibits evident regional responses, which are featured by decreased snow depth in the North Eurasia but increased in central Europe. Further analysis suggests that the Arctic Oscillation (AO) is an important connection between the BKS sea ice and anomalous winter snow depth, which affect both the temperature and the precipitation in winter over the Eurasia. The regional difference mainly comes from significant differences in regional atmospheric general circulation anomalies as well as the various controlling factors affecting the formation of the snowfall. In North Eurasia, water vapor plays a decisive role in the formation of the winter snowfall and further the winter snow depth. Positive (negative) BKS sea ice anomaly generally induces positive (negative) AO pattern, which can enhance (weaken) the zonal wind and increase (decrease) water vapor transportation to the North Eurasia, causing increased (decreased) winter snow depth. In contrast, in Europe, temperature is the dominant factor affecting the formation of the snowfall and the snow depth. Positive (negative) AO pattern, enhances (weakens) the warm moist advection and thus leads to increased (decreased) temperatures in the Europe, consequently resulting in reduced (increased) winter snow depth. Report Arctic Sea ice Institute of Earth Environment: IEECAS OpenIR (Chinese Academy of Sciences) Arctic Atmospheric Research 222 100 113
institution Open Polar
collection Institute of Earth Environment: IEECAS OpenIR (Chinese Academy of Sciences)
op_collection_id ftchinacascieeca
language English
topic Eurasian snow cover
Arctic Sea Ice
Arctic oscillation
Regional response
ATMOSPHERIC CIRCULATION
PHYSICAL-MECHANISMS
VARIABILITY
CLIMATE
TEMPERATURE
HEMISPHERE
IMPACT
OSCILLATION
LINKING
PATTERN
Meteorology & Atmospheric Sciences
spellingShingle Eurasian snow cover
Arctic Sea Ice
Arctic oscillation
Regional response
ATMOSPHERIC CIRCULATION
PHYSICAL-MECHANISMS
VARIABILITY
CLIMATE
TEMPERATURE
HEMISPHERE
IMPACT
OSCILLATION
LINKING
PATTERN
Meteorology & Atmospheric Sciences
Xu, Bei
Chen, Haishan
Gao, Chujie
Zhou, Botao
Sun, Shanlei
Zhu, Siguang
Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
topic_facet Eurasian snow cover
Arctic Sea Ice
Arctic oscillation
Regional response
ATMOSPHERIC CIRCULATION
PHYSICAL-MECHANISMS
VARIABILITY
CLIMATE
TEMPERATURE
HEMISPHERE
IMPACT
OSCILLATION
LINKING
PATTERN
Meteorology & Atmospheric Sciences
description Variations of sea ice can exert significant impacts on the atmospheric general circulation, temperature and precipitation, resulting in anomalous land surface conditions such as snow cover. In this study, we explored the possible impacts of the abnormal late autumn Arctic sea ice on winter snow depth over the Eurasia, especially the mechanism responsible for regional response of the snow cover to the sea ice anomalies through both observational analysis based on multi-source snow depth data and numerical sensitivity experiments. Results show that with decreasing sea ice in the Barents and Kara Seas (BKS) region, the snow depth exhibits evident regional responses, which are featured by decreased snow depth in the North Eurasia but increased in central Europe. Further analysis suggests that the Arctic Oscillation (AO) is an important connection between the BKS sea ice and anomalous winter snow depth, which affect both the temperature and the precipitation in winter over the Eurasia. The regional difference mainly comes from significant differences in regional atmospheric general circulation anomalies as well as the various controlling factors affecting the formation of the snowfall. In North Eurasia, water vapor plays a decisive role in the formation of the winter snowfall and further the winter snow depth. Positive (negative) BKS sea ice anomaly generally induces positive (negative) AO pattern, which can enhance (weaken) the zonal wind and increase (decrease) water vapor transportation to the North Eurasia, causing increased (decreased) winter snow depth. In contrast, in Europe, temperature is the dominant factor affecting the formation of the snowfall and the snow depth. Positive (negative) AO pattern, enhances (weakens) the warm moist advection and thus leads to increased (decreased) temperatures in the Europe, consequently resulting in reduced (increased) winter snow depth.
format Report
author Xu, Bei
Chen, Haishan
Gao, Chujie
Zhou, Botao
Sun, Shanlei
Zhu, Siguang
author_facet Xu, Bei
Chen, Haishan
Gao, Chujie
Zhou, Botao
Sun, Shanlei
Zhu, Siguang
author_sort Xu, Bei
title Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
title_short Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
title_full Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
title_fullStr Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
title_full_unstemmed Regional response of winter snow cover over the Northern Eurasia to late autumn Arctic sea ice and associated mechanism
title_sort regional response of winter snow cover over the northern eurasia to late autumn arctic sea ice and associated mechanism
publisher ELSEVIER SCIENCE INC
publishDate 2019
url http://ir.ieecas.cn/handle/361006/14127
https://doi.org/10.1016/j.atmosres.2019.02.010
geographic Arctic
geographic_facet Arctic
genre Arctic
Sea ice
genre_facet Arctic
Sea ice
op_relation ATMOSPHERIC RESEARCH
http://ir.ieecas.cn/handle/361006/14127
doi:10.1016/j.atmosres.2019.02.010
op_doi https://doi.org/10.1016/j.atmosres.2019.02.010
container_title Atmospheric Research
container_volume 222
container_start_page 100
op_container_end_page 113
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