A Comparison of the Impacts of Inner-Core, In-Vortex, and Environmental Dropsondes on Tropical Cyclone Forecasts during the 2017-2020 Hurricane Seasons

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Sarah D. Ditchek, J. Sippel
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引用次数: 1

Abstract

This study conducts the first large-sample comparison of the impact of dropsondes in the tropical cyclone (TC) inner core, vortex, and environment on NWP-model TC forecasts. We analyze six observing-system experiments, focusing on four sensitivity experiments that denied dropsonde observations within annuli corresponding with natural breakpoints in reconnaissance sampling. These are evaluated against two other experiments detailed in a recent parallel study: one that assimilated and another that denied dropsonde observations. Experiments used a basin-scale, multi-storm configuration of the Hurricane Weather Research and Forecasting model (HWRF) and covered active periods of the 2017–2020 North Atlantic hurricane seasons. Analysis focused on forecasts initialized with dropsondes that used mesoscale error covariance derived from a cycled HWRF ensemble, as these forecasts were where dropsondes had the greatest benefits in the parallel study. Some results generally support findings of previous research, while others are novel. Most notable was that removing dropsondes anywhere, particularly from the vortex, substantially degraded forecasts of maximum sustained winds. Removing in-vortex dropsondes also degraded outer-wind-radii forecasts in many instances. As such, in-vortex dropsondes contribute to a majority of the overall impacts of the dropsonde observing system. Additionally, track forecasts of weak TCs benefited more from environmental sampling, while track forecasts of strong TCs benefited more from in-vortex sampling. Finally, inner-core-only sampling strategies should be avoided, supporting a change made to the U.S. Air Force Reserve’s sampling strategy in 2018 that added dropsondes outside of the inner core.
2017-2020飓风季内核、内涡和环境下降对热带气旋预报影响的比较
本研究首次对热带气旋(TC)内核、涡旋和环境中的下降探测对NWP模式TC预报的影响进行了大样本比较。我们分析了六个观测系统实验,重点是四个灵敏度实验,这些实验否认了在侦察采样中与自然断点相对应的环空内的dropsonde观测。这些是根据最近一项平行研究中详细介绍的另外两个实验进行评估的:一个实验被同化,另一个实验否认了dropsonde观测结果。实验使用了飓风天气研究和预测模型(HWRF)的流域尺度多风暴配置,涵盖了2017-2020年北大西洋飓风季的活跃期。分析的重点是使用探空仪初始化的预测,该探空仪使用从循环HWRF系综中导出的中尺度误差协方差,因为这些预测是探空仪在平行研究中受益最大的地方。一些结果通常支持先前研究的发现,而另一些则是新颖的。最值得注意的是,在任何地方,特别是从旋涡中移除探空仪,都大大降低了对最大持续风速的预测。在许多情况下,去除旋涡内的下降探测器也降低了外部风半径的预测。因此,在涡流中,探空仪对探空仪观测系统的总体影响起着主要作用。此外,弱TC的轨道预测更多地受益于环境采样,而强TC的轨道预报更多地受益于涡内采样。最后,应该避免只使用内部核心的采样策略,这支持了2018年美国空军预备役采样策略的改变,该策略在内部核心之外增加了下降探测器。
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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来源期刊
Weather and Forecasting
Weather and Forecasting 地学-气象与大气科学
CiteScore
5.20
自引率
17.20%
发文量
131
审稿时长
6-12 weeks
期刊介绍: Weather and Forecasting (WAF) (ISSN: 0882-8156; eISSN: 1520-0434) publishes research that is relevant to operational forecasting. This includes papers on significant weather events, forecasting techniques, forecast verification, model parameterizations, data assimilation, model ensembles, statistical postprocessing techniques, the transfer of research results to the forecasting community, and the societal use and value of forecasts. The scope of WAF includes research relevant to forecast lead times ranging from short-term “nowcasts” through seasonal time scales out to approximately two years.
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