1979-2020年加利福尼亚秋季地面风趋势

IF 3 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Climate Pub Date : 2023-10-12 DOI:10.3390/cli11100207
Callum F. Thompson, Charles Jones, Leila Carvalho, Anna T. Trugman, Donald D. Lucas, Daisuke Seto, Kevin Varga
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引用次数: 0

摘要

加州的地面风在秋季可能会加剧火灾风险,但与温度、干旱和融雪等其他气候变量相比,面对十年变暖,它们的长期趋势不太清楚。为了确定地表风变化最大的位置和方式,本文使用多次再分析和远程自动气象站(RAWS)来计算1979-2020年秋季10米风速趋势。重新分析趋势显示,在内华达山脉西坡的秋季夜间东风在统计上显著增加。虽然下坡风暴在该地区频繁发生,但趋势似乎是由加利福尼亚和内陆大陆之间变暖梯度升高引起的。其结果是在塞拉峰顶和山麓附近的自由大气上有一个更大的水平温度梯度,加强了气候学上的夜间降风。虽然RAWS记录显示出广泛的一致性,但其趋势可能受到观测次数逐年变化的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Autumn Surface Wind Trends over California during 1979–2020
Surface winds over California can compound fire risk during autumn, yet their long-term trends in the face of decadal warming are less clear compared to other climate variables like temperature, drought, and snowmelt. To determine where and how surface winds are changing most, this article uses multiple reanalyses and Remote Automated Weather Stations (RAWS) to calculate autumn 10 m wind speed trends during 1979–2020. Reanalysis trends show statistically significant increases in autumn night-time easterlies on the western slopes of the Sierra Nevada. Although downslope windstorms are frequent to this region, trends instead appear to result from elevated gradients in warming between California and the interior continent. The result is a sharper horizontal temperature gradient over the Sierra crest and adjacent free atmosphere above the foothills, strengthening the climatological nocturnal katabatic wind. While RAWS records show broad agreement, their trend is likely influenced by year-to-year changes in the number of observations.
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来源期刊
Climate
Climate Earth and Planetary Sciences-Atmospheric Science
CiteScore
5.50
自引率
5.40%
发文量
172
审稿时长
11 weeks
期刊介绍: Climate is an independent, international and multi-disciplinary open access journal focusing on climate processes of the earth, covering all scales and involving modelling and observation methods. The scope of Climate includes: Global climate Regional climate Urban climate Multiscale climate Polar climate Tropical climate Climate downscaling Climate process and sensitivity studies Climate dynamics Climate variability (Interseasonal, interannual to decadal) Feedbacks between local, regional, and global climate change Anthropogenic climate change Climate and monsoon Cloud and precipitation predictions Past, present, and projected climate change Hydroclimate.
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