Using Calibrated Rainfall Forecasts and Observed Rainfall to Produce Probabilistic Meteorological Drought Forecasts

Climate Pub Date : 2024-04-10 DOI:10.3390/cli12040054
Zhi-Weng Chua, Yuriy Kuleshov, J. Bhardwaj
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Abstract

Most existing drought forecast systems rely only on observed or forecast rainfall, losing valuable context gained from considering both. The lack of a direct link between observed and forecast rainfall reduces the physical consistency of a system, motivating the development of a methodology that can directly link the two. The methodology developed in this study allows the comparison of the calibrated ensemble forecasts of rainfall totals from a dynamical climate model to observed rainfall deficiencies from a gridded rainfall analysis. The methodology is used to create a probabilistic product that forecasts the chance of entering meteorological drought, with lead times of one month (monthly forecast) and three months (seasonal forecast). Existing deficiency areas are included to facilitate analysis of how these areas are forecast to change. The performance of the developed methodology was verified using Percent Correct (PC), Brier Score (BS), and Relative Operating Characteristic (ROC) statistics. Analysis of the forecast plots was also completed visually. Forecast performance for areas with existing deficiencies as well as for non-deficiency areas was promising (PC rates of >79% and >97%, respectively). Although PC rates for observed deficiencies were low across most months, the mean forecast probability for these areas was 36%, indicating the system had value and outperformed climatology. A calibrated, coupled product like the one scoped in this study has not been explored and we note that it could be an invaluable tool for quantifying meteorological drought onset and persistence in Australia.
利用校准降雨量预报和观测降雨量制作概率气象干旱预报
现有的干旱预报系统大多只依赖于观测降雨量或预报降雨量,失去了同时考虑两者所获得的宝贵背景信息。观测降雨量和预报降雨量之间缺乏直接联系,降低了系统的物理一致性,因此需要开发一种能将两者直接联系起来的方法。本研究开发的方法可将动态气候模式对降雨总量的校准集合预报与网格降雨分析中观测到的降雨缺陷进行比较。该方法用于创建一个概率产品,预测进入气象干旱的几率,预测时间为一个月(月度预测)和三个月(季节预测)。现有的缺水地区也包括在内,以便于分析这些地区的预测变化情况。使用正确率 (PC)、布赖尔得分 (BS) 和相对运行特征 (ROC) 统计量验证了所开发方法的性能。此外,还对预测图进行了直观分析。对存在缺陷的地区和无缺陷地区的预测结果都很理想(PC 正确率分别大于 79% 和大于 97%)。虽然大部分月份观测到的缺水地区的 PC 率较低,但这些地区的平均预测概率为 36%,这表明该系统具有价值,其表现优于气候学。我们注意到,它可能是量化澳大利亚气象干旱发生和持续情况的宝贵工具。
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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