Evaluation of ERA5 and CHIRPS rainfall estimates against observations across Ethiopia

IF 1.9 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
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Abstract

Satellite-based precipitation estimates and global reanalysis products bear the promise of supporting the development of accurate and timely climate information for end users in sub-Sharan Africa. The accuracy of these global models, however, may be reduced in data-scarce regions and should be carefully evaluated. This study evaluates the performance of ERA5 reanalysis data and CHIRPS precipitation data against ground-based measurements from 167 rain gauges in Ethiopia, a region with complex topography and diverse climates. Focusing over a 38-year period (1981–2018), our study utilizes a point-to-pixel analysis to compare daily, monthly, seasonal, and annual precipitation data, conducting an evaluation based on continuous and categorical metrics. Our findings indicate that over Ethiopia CHIRPS generally outperforms ERA5, particularly in high-altitude areas, demonstrating a better capability in detecting high-intensity rainfall events. Both datasets, however, exhibit lower performance in Ethiopia's lowland regions, possibly the influence of sparse rain gauge networks informing gridded datasets. Notably, both CHIRPS and ERA5 were found to underestimate rainfall variability, with CHIRPS displaying a slight advantage in representing the erratic nature of Ethiopian rainfall. The study’s results highlight considerable performance differences between CHIRPS and ERA5 across varying Ethiopian landscapes and climatic conditions. CHIRPS’ effectiveness in high-altitude regions, especially for daily rainfall estimation, emphasizes its suitability in similar geographic contexts. Conversely, the lesser performance of ERA5 in these areas suggests a need for refined calibration and validation processes, particularly for complex terrains. These insights are essential for the application of satellite-based and reanalysis of rainfall data in meteorological, agricultural, and hydrological contexts, particularly in topographically and climatically diverse regions.

根据埃塞俄比亚各地的观测结果评估 ERA5 和 CHIRPS 的降雨量估计值
摘要 基于卫星的降水估算和全球再分析产品有望支持为撒哈拉以南非洲的终端用户开发准确、及时的气候信息。然而,在数据稀缺的地区,这些全球模式的准确性可能会降低,因此应仔细评估。埃塞俄比亚是一个地形复杂、气候多样的地区,本研究评估了ERA5再分析数据和CHIRPS降水数据与该地区167个雨量计的地面测量数据的对比情况。我们的研究以 38 年(1981-2018 年)为重点,利用点到像素分析比较日降水量、月降水量、季节降水量和年降水量数据,并根据连续和分类指标进行评估。我们的研究结果表明,在埃塞俄比亚,CHIRPS 总体上优于ERA5,尤其是在高海拔地区,这表明 CHIRPS 在探测高强度降雨事件方面具有更强的能力。然而,这两个数据集在埃塞俄比亚低地地区的表现都较差,这可能是稀疏的雨量计网络对网格数据集的影响。值得注意的是,CHIRPS 和 ERA5 都低估了降雨的变异性,而 CHIRPS 在表现埃塞俄比亚降雨的不稳定性方面略胜一筹。研究结果凸显了 CHIRPS 和 ERA5 在埃塞俄比亚不同地貌和气候条件下的性能差异。CHIRPS 在高海拔地区的有效性,特别是在日降雨量估算方面,强调了其在类似地理环境下的适用性。相反,ERA5 在这些地区的表现较差,这表明需要改进校准和验证过程,特别是在复杂地形上。这些见解对基于卫星和再分析的降雨数据在气象、农业和水文方面的应用至关重要,尤其是在地形和气候多样的地区。
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来源期刊
Meteorology and Atmospheric Physics
Meteorology and Atmospheric Physics 地学-气象与大气科学
CiteScore
4.00
自引率
5.00%
发文量
87
审稿时长
6-12 weeks
期刊介绍: Meteorology and Atmospheric Physics accepts original research papers for publication following the recommendations of a review panel. The emphasis lies with the following topic areas: - atmospheric dynamics and general circulation; - synoptic meteorology; - weather systems in specific regions, such as the tropics, the polar caps, the oceans; - atmospheric energetics; - numerical modeling and forecasting; - physical and chemical processes in the atmosphere, including radiation, optical effects, electricity, and atmospheric turbulence and transport processes; - mathematical and statistical techniques applied to meteorological data sets Meteorology and Atmospheric Physics discusses physical and chemical processes - in both clear and cloudy atmospheres - including radiation, optical and electrical effects, precipitation and cloud microphysics.
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