Evaluating Medium-Range Forecast Performance of Regional-Scale Circulation Patterns

IF 3 3区地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES

Weather and Forecasting Pub Date : 2023-08-01 DOI:10.1175/waf-d-22-0149.1

Omon A. Obarein, Cameron C. Lee, Erik T. Smith, Scott C. Sheridan

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Abstract

Abstract Accurate subseasonal-to-seasonal (S2S) weather forecasts are crucial to making important decisions in many sectors. However, significant gaps exist between the needs of society and what forecasters can produce, especially at weekly and longer lead times. We hypothesize that by clustering atmospheric states into a number of predefined categories, the noise can be reduced and, consequently, medium-range forecasts can be improved. Self-organizing map (SOM)-based clustering was used on daily mean sea level pressure (MSLP) data from the North American Regional Reanalysis to categorize the synoptic-scale circulation for eastern North America from 1979 to 2016 into 28 discrete patterns. Then, using two goodness-of-fit metrics, the relative skill of four different forecasting methods over a 90-day lead time was studied: 1) a circulation pattern (CP) forecast, 2) raw forecast output from the Climate Forecast System (CFS) operated by the National Centers for Environmental Prediction (NCEP), 3) a simple climatology forecast, and 4) a simple persistence forecast. As expected, forecast skill of both the CP forecast and the raw CFS forecast generally decreased rapidly from the first day, coming to parity with the skill of climatology after 10–12 days when using correlation, and at 7–10 days when using the root-mean-square error (RMSE). Most importantly, this study found that the CP forecast was the most skillful forecast method over the 8–11-day lead time when using RMSE. On a spatial basis, the skill of the CP forecast and the raw CFS decreases latitudinally from north to south. This study thus demonstrates the potential utility of categorical or circulation pattern–based forecasting at 1–2-week lead times.

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评价区域尺度环流型的中期预报性能

准确的亚季节到季节(S2S)天气预报对许多行业的重要决策至关重要。然而，在社会需求和预报员的产出之间存在着巨大的差距，特别是在每周和更长的交货时间。我们假设，通过将大气状态聚类到一些预定义的类别中，可以减少噪声，从而可以改进中期预报。利用北美区域再分析的日平均海平面压力(MSLP)数据，利用自组织图(SOM)聚类方法将1979 - 2016年北美东部天气尺度环流划分为28个离散型。然后，利用两个拟合优度指标，研究了4种不同预报方法在90天内的相对技能:1)环流模式(CP)预报，2)美国国家环境预报中心(NCEP)气候预报系统(CFS)的原始预报输出，3)简单气体学预报，4)简单持续性预报。正如预期的那样，CP预报和原始CFS预报的预报技能从第一天开始普遍迅速下降，在10-12天后使用相关，在7-10天后使用均方根误差(RMSE)与气气学技能相当。最重要的是，本研究发现，当使用RMSE时，CP预测是8 - 11天提前期内最熟练的预测方法。从空间上看，CP预报和原始CFS的能力从北向南呈下降趋势。因此，这项研究证明了在1 - 2周的提前期进行分类或基于环流模式的预报的潜在效用。

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来源期刊

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.