圣劳伦斯河谷冷季降水事件的季节性特征和可预测性

Andrew C. Winters, N. Bassill, J. Gyakum, J. Minder
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引用次数: 0

摘要

圣劳伦斯河谷在寒冷季节会出现多种降水类型(p-type),如降雨、冻雨、冰粒和降雪。这些不同的降水类型对航空、公路运输、发电和配电以及冬季娱乐活动产生了相当大的影响,并由与该地区复杂地形相互作用的各种多尺度过程形成。本研究利用ERA5再分析数据、地表气旋气候学以及2000年10月至2018年4月期间魁北克省蒙特利尔市和弗吉尼亚州伯灵顿市的每小时观测站观测数据,研究了诱发圣劳伦斯河谷冷季降水的各种同步尺度天气机制。其中,K-均值聚类和自组织地图(SOM)用于将经过圣劳伦斯河谷附近的气旋轨迹及其伴随的热动力剖面划分为一系列事件类型,包括美国东海岸轨迹、美国中部轨迹和两个加拿大飓风轨迹。随后进行综合分析,以揭示每种事件类型最常伴随的同步尺度环境和特征 p 型。然后使用 GEFSv12 重新预测来检验气旋特征的相对可预测性,以及在 0-5 天预报提前期与每种事件类型相关的本地热动力剖面。分析表明,圣劳伦斯河谷附近的预报气旋发展过快,而且相对于再分析的平均值偏离了轨道,这对气温接近 0℃时整个地区的当地热动力剖面和 p 型的预报产生了影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Regime-Dependent Characteristics and Predictability of Cold Season Precipitation Events in the St. Lawrence River Valley
The St. Lawrence River Valley experiences a variety of precipitation types (p-types) during the cold season, such as rain, freezing rain, ice pellets, and snow. These varied precipitation types exert considerable impacts on aviation, road transportation, power generation and distribution, and winter recreation, and are shaped by diverse multiscale processes that interact with the region’s complex topography. This study utilizes ERA5 reanalysis data, a surface cyclone climatology, and hourly station observations from Montréal, Québec and Burlington, VT, during October–April 2000–2018 to investigate the spectrum of synoptic-scale weather regimes that induce cold season precipitation across the St. Lawrence River Valley. In particular, k-means clustering and self-organizing maps (SOMs) are used to classify cyclone tracks passing near the St. Lawrence River Valley, and their accompanying thermodynamic profiles, into a set of event types that include a U.S. East Coast track, a Central U.S. track, and two Canadian clipper tracks. Composite analyses are subsequently performed to reveal the synoptic-scale environments and the characteristic p-types that most frequently accompany each event type. GEFSv12 reforecasts are then used to examine the relative predictability of cyclone characteristics and the local thermodynamic profile associated with each event type at 0–5-day forecast lead times. The analysis suggests that forecasted cyclones near the St. Lawrence River Valley develop too quickly and are located left-of-track relative to the reanalysis on average, which has implications for forecasts of the local thermodynamic profile and p-type across the region when the temperature is near 0°C.
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