Local and Object-based Perspectives on Atmospheric Rivers Making Landfall on the Western North American Coastline

Wen-Shu Lin, Joel R. Norris, M. DeFlorio, F. M. Ralph
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Abstract

We apply the Ralph et al. (2019) scaling method to a reanalysis dataset to examine the climatology and variability of landfalling atmospheric rivers (ARs) along the western North American coastline during 1980–2019. The local perspective ranks AR intensity on a scale from 1 (weak) to 5 (strong) at each grid point along the coastline. The object-based perspective analyzes the characteristics of spatially independent and temporally coherent AR objects making landfall. The local perspective shows that the annual AR frequency of weak and strong ARs along the coast are highest in Oregon and Washington and lowest in southern California. Strong ARs occur less frequently than weak ARs and have a more pronounced seasonal cycle. If those ARs with integrated water vapor transport (IVT) weaker than 250 kg m−1 s−1 are included, there is an enhanced seasonal cycle of AR frequency in southern California and a seasonal cycle of AR intensity but not AR frequency in Alaska. The object-based analysis additionally indicates that strong ARs at lower latitudes are associated with stronger wind than weak ARs but similar moisture, whereas strong ARs at higher latitudes are associated with greater moisture than weak ARs but similar wind. For strong ARs, IVT at the core is largest for ARs in Oregon and Washington and smaller poleward and equatorward. Both IVT in the AR core and cumulative IVT along the coastline usually decrease after the first day of landfall for weak ARs but increase from the first to second day for strong ARs.
从局部和物体角度看大气河流在北美西部海岸线的登陆情况
我们将 Ralph 等人(2019 年)的缩放方法应用于再分析数据集,研究了 1980-2019 年期间北美西部海岸线登陆大气河流(AR)的气候学和变率。局部视角以 1(弱)到 5(强)的等级对海岸线上每个网格点的 AR 强度进行排名。基于对象的视角分析了在空间上独立、在时间上连贯的AR登陆对象的特征。地方视角显示,沿岸弱和强 AR 的年 AR 频率在俄勒冈州和华盛顿州最高,在加利福尼亚州南部最低。强 AR 的出现频率低于弱 AR,且季节周期更明显。如果将综合水汽输送(IVT)弱于 250 kg m-1 s-1 的 AR 包括在内,则加利福尼亚南部的 AR 频率的季节周期会增强,阿拉斯加的 AR 强度的季节周期会增强,但 AR 频率的季节周期不会增强。基于对象的分析还表明,低纬度地区的强 AR 与风力比弱 AR 大但湿度相似有关,而高纬度地区的强 AR 与湿度比弱 AR 大但风力相似有关。就强AR而言,俄勒冈州和华盛顿州AR核心的IVT最大,向极地和赤道方向的IVT较小。弱AR登陆第一天后,AR核心的IVT和沿海岸线的累积IVT通常都会下降,但强AR的IVT在登陆第一天到第二天会上升。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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