Large-amplitude quasi-stationary Rossby wave events in ERA5 and the CESM2: features, precursors, and model biases in Northern Hemisphere winter

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Cuiyi Fei, R. White
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引用次数: 0

Abstract

High amplitude quasi-stationary Rossby waves (QSWs) have been connected to extreme weather events. By identifying particularly high amplitude QSW events (QWEs) over Europe and North America we study their characteristics in ERA5 re-analysis data and in ensemble simulations from the CESM2 general circulation model. The CESM2 reproduces the overall statistics of QWEs, with ERA5 results within the ensemble spread. The ensemble spread is large, indicating a strong influence of internal variability. Composites of meridional wind anomalies for QWEs show a phase preference in both ERA5 and CESM2, resembling the climatological wave pattern. This is partly due to the definition of QSWs; with the day-of-year climatological meridional wind removed when identifying QSWs, the phase preference remains, albeit with a weaker signal. Significant tropical Pacific precipitation anomalies are seen 5-15 days before observed QWEs; the location of these anomalies is broadly reproduced in CESM2, but the magnitude is substantially underestimated and the time scale is biased. We find a narrowed and strengthened jet stream over the Pacific at the early stage of European QWEs, which may create enhanced waveguidability; this signal is generally reproduced in the models. Overall, the CESM2 can simulate QWEs; differences between the model ensemble mean and re-analysis could result from model bias or internal variability, although biases are not reduced in CESM2 simulations forced with observed SSTs.
ERA5和CESM2中的大振幅准平稳Rossby波事件:北半球冬季的特征、前兆和模型偏差
高振幅准平稳Rossby波(QSW)与极端天气事件有关。通过识别欧洲和北美上空的特别高振幅QSW事件,我们在ERA5重新分析数据和CESM2环流模型的系综模拟中研究了它们的特征。CESM2再现了QWE的总体统计数据,ERA5结果在系综分布中。系综传播很大,表明内部变异性的影响很大。QWE的经向风异常复合物在ERA5和CESM2中都显示出相位偏好,类似于气候波动模式。这在一定程度上是由于QSW的定义;在识别QSW时,随着一年中气候经向风的去除,相位偏好仍然存在,尽管信号较弱。在观测到QWE之前5-15天,可以看到显著的热带太平洋降水异常;这些异常的位置在CESM2中广泛再现,但幅度被大大低估,时间尺度有偏差。我们发现,在欧洲QWE的早期阶段,太平洋上空的急流变窄并增强,这可能会增强波导性;该信号通常在模型中被再现。总体而言,CESM2可以模拟QWE;模型集合平均值和重新分析之间的差异可能是由于模型偏差或内部可变性造成的,尽管在使用观测到的SST进行的CESM2模拟中,偏差并没有减少。
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来源期刊
Journal of the Atmospheric Sciences
Journal of the Atmospheric Sciences 地学-气象与大气科学
CiteScore
0.20
自引率
22.60%
发文量
196
审稿时长
3-6 weeks
期刊介绍: The Journal of the Atmospheric Sciences (JAS) publishes basic research related to the physics, dynamics, and chemistry of the atmosphere of Earth and other planets, with emphasis on the quantitative and deductive aspects of the subject. The links provide detailed information for readers, authors, reviewers, and those who wish to submit a manuscript for consideration.
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