Dominant Modes of Interannual Variability in Eurasian Surface Air Temperature during Boreal Spring

Chen, Shangfeng; Wu, Renguang; Liu, Yong

doi:10.1175/jcli-d-15-0524.1

Cited by 114 publications

(146 citation statements)

References 35 publications

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“…However, the relationship between the dominant modes of Eurasian snow and atmospheric circulation during autumn and spring is still not clear. In addition, a better understanding of the snow-atmosphere coupling mode demands a deeper insight into the associated boundary thermal conditions (Chen, Wu, and Liu 2016).…”

Section: Seasonal Evolution Of the Eurasian Snow And Circulation Domimentioning

confidence: 99%

“…Excessive autumn and winter Eurasian snow cover can cause a negative-phase winter AO mode, and vice versa (Saito, Cohen, and Entekhabi 2001;Cohen et al 2007). On the other hand, the AO/NAO mode also exerts important influence on the Eurasian snowpack variability as the Eurasian continent is warmer in the positive-phase AO (Clark, Serreze, and Robinson 1999;Kim, Kim, and Kim 2013;Chen, Wu, and Liu 2016). A consensus has been reached that the Eurasian snow cover variability is more dependent on temperature than on precipitation (Walland and Simmonds 1997;Henderson and Leathers 2010;Yeo, Kim, and Kim 2017).…”

Section: Introductionmentioning

confidence: 99%

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Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget

Sun

2017

Atmospheric and Oceanic Science Letters

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To cite this article: Bo SUN (2017) Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget, Atmospheric and Oceanic Science Letters, 10:3, 191-197, DOI: 10.1080/16742834.2017 Letters, 2017 VoL. 10, no. 3, 191-197 http://dx.doi.org/10.1080/16742834.2017 Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget This study investigates the seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring using snow water equivalent (SWE), snow cover frequency (SCF), and 500 hPa geopotential height data. It is found that the Eurasian SWE/SCF and circulation dominant modes are stably coupled from autumn to the subsequent spring. The temporal coherence of the seasonal evolution of the dominant modes is examined. The seasonal evolution of the Eurasian circulation and SWE dominant modes exhibit good coherence, whereas the evolution of the Eurasian SCF dominant mode is incoherent during the autumn-winter transition season. This incoherence is associated with a sign-change in the SCF anomalies in Europe during the autumn-winter transition season, which is related to the wind anomalies over Europe. In addition, the surface heat budget associated with the Eurasian SWE/SCF and circulation dominant modes is analyzed. The sensible heat flux (SHF) related to the wind-induced thermal advection dominates the surface heat budget from autumn to the subsequent spring, with the largest effect during winter. The surface net shortwave radiation is mainly modulated by snow cover rather than cloud cover, which is estimated to be as important as, or likely superior to, the SHF for the surface heat budget during spring. The NCEP-NCAR surface heat flux reanalysis data demonstrate a consistency with the SWE/SCF and air temperature observational data, indicating a good capability for snow-atmosphere interaction analysis. 摘要本文研究了欧亚大陆地区雪水当量、积雪覆盖率以及500 hPa 位势高度的主模态从秋季到次年春季的演变情况。结果表明，欧亚大陆地区的积雪与大气环流主模态从秋季至次年春季呈稳定而显著的相关关系。欧亚地区雪水当量和大气环流主模态的季节演变表现出了良好的连贯性，而积雪覆盖率的主模态则在秋-冬过渡时期表现出了较差的连贯性。在相应的表面热量收支方面，由近表面风驱动的热平流是影响表面热量收支的重要因素，在冬季尤为显著。此外，由积雪引起的短波辐射异常在春季扮演了同样重要甚至更加重要的角色。

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Section: Seasonal Evolution Of the Eurasian Snow And Circulation Domimentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget

Sun

2017

Atmospheric and Oceanic Science Letters

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“…SAT variations over Eurasia were impacted by lower boundary factors, including Eurasian snow cover (Chen et al, ; K. Ye et al, ), the Arctic sea ice (Chen & Wu, ; J. P. Liu et al, , C. Sun et al, ; J. Zuo et al, ), and sea surface temperature (SST) in the North Atlantic and Pacific (Chen et al, , ; Graf & Zanchettin, ; R. Wu & Chen, ; R. Wu et al, , ). Above mentioned studies generally showed that atmospheric circulation anomalies play an important role in relaying the impacts of the Arctic sea ice and SST on the Eurasian SAT.…”

Section: Introductionmentioning

confidence: 99%

“…Above mentioned studies generally showed that atmospheric circulation anomalies play an important role in relaying the impacts of the Arctic sea ice and SST on the Eurasian SAT. R. Wu et al () and Chen et al () indicated that the North Atlantic SST anomalies influence the Eurasian SAT variations via triggering an atmospheric wave train over the North Atlantic through the Eurasia. J. Zuo et al () reported that preceding autumn Arctic sea ice anomalies have a significant influence on the subsequent winter temperature variations over China via modulating the Siberian High and the East Asian trough.…”

Section: Introductionmentioning

confidence: 99%

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Combined Influence of the Arctic Oscillation and the Scandinavia Pattern on Spring Surface Air Temperature Variations Over Eurasia

Chen

Song

et al. 2018

JGR Atmospheres

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The present study investigated the joint impacts of the spring Arctic Oscillation (AO) and the Scandinavia (SCAND) teleconnection pattern on spring surface air temperature (SAT) variations over the midhigh latitude Eurasia. It is found that the connection of the spring AO (SCAND) to the first two empirical orthogonal function (EOF) modes of the spring Eurasian SAT variations depends strongly on the phase of the spring SCAND (AO) index. The EOF1 and EOF2 modes display same sign variation and tripole pattern, respectively. In the in‐phase AO‐SCAND years, the mid‐high latitude Eurasia is covered by same sign SAT anomalies, and the spring AO and SCAND indices both have a strong (weak) connection with the EOF1 (EOF2) mode. In the out‐of‐phase AO‐SCAND years, the SAT anomalies over the mid‐high latitude Eurasia are featured by a tripole pattern, and the connection of the spring AO and SCAND indices with the EOF1 (EOF2) is insignificant (significant). Differences in the distribution of SAT anomalies between the in‐phase and out‐of‐phase AO‐SCAND years are attributed to the constructive and destructive superposition of atmospheric circulation anomalies related to the spring AO and SCAND indices. The observed joint impacts of the spring AO and SCAND on spring Eurasian SAT variations are captured by a historical simulation of the flexible global ocean‐atmosphere‐land system model, spectral version 2. Analysis indicates that the prediction skill of the spring Eurasian SAT variations related to the first two EOF modes is enhanced when taking both the spring AO and SCAND signals into account.

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Early spring droughts in Central Europe: Indications for atmospheric and oceanic drivers

Haslinger

Mayer

2022

Atmospheric Science Letters

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Early Springs (ES), March and April in particular, have been extremely dry in Central Europe in recent years, particularly from 2003 onwards. This is causing substantial impacts, foremost to agriculture, which is heavily dependent on sufficient moisture supply at the beginning growing season. However, the drivers of ES droughts are still not well understood. In this article, we investigate the temporal evolution of ES precipitation anomalies for the period 1860-2020 over Central Europe and the driving large-scale atmospheric circulation conditions. Two periods of ES drought conditions stand out, the most recent period (2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018)(2019)(2020) and another one during the middle of the 20th century which show sustained negative precipitation anomalies in ES with only a few exceptions. The positive phase of the East Atlantic/Western Russia surface air pressure patterns is found as the main driver of ES precipitation deficit. Further analyses reveals an important role of positive western Atlantic sea surface temperature anomalies. These drive a Rossby wave response, resembling the positive phase East Atlantic/Western Russia pattern. Although the given evidence points towards internal multidecadal North Atlantic variability driving the warming patterns, anthropogenic warming from enhanced greenhouse gas emissions cannot be discarded as additional forcing of the recent ES drought period.

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Dominant Modes of Interannual Variability in Eurasian Surface Air Temperature during Boreal Spring

Cited by 114 publications

References 35 publications

Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget

Seasonal evolution of the dominant modes of the Eurasian snowpack and atmospheric circulation from autumn to the subsequent spring and the associated surface heat budget

Combined Influence of the Arctic Oscillation and the Scandinavia Pattern on Spring Surface Air Temperature Variations Over Eurasia

Early spring droughts in Central Europe: Indications for atmospheric and oceanic drivers

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