巴西马托格罗索州Penman-Monteith参考蒸散发对气候变量的全球敏感性

Q4 Earth and Planetary Sciences
Earth Pub Date : 2023-09-13 DOI:10.3390/earth4030038
Marlus Sabino, Adilson Pacheco de Souza
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引用次数: 1

摘要

了解气候变量如何影响参考蒸散(ETo)对于水资源管理至关重要,特别是考虑到气候变化造成的潜在波动。因此,我们采用Sobol’方法分析了Penman-Monteith ETo对太阳向下辐射、相对湿度、最高和最低气温、风速等气候变量敏感性的时空变化。Sobol指数方差通过蒙特卡洛积分估计,样本限设置为位于巴西马托格罗索州的33个自动气象站的每日数据的2.5和97.5%。Sobol的分析结果表明,ETo对气候变量及其相互作用的敏感性存在相当大的时空变化。导致马托格罗索州ETo波动的主要气候变量是入射太阳辐射(占年总敏感度- Stot的53%至93%),正如在该州亚马逊生物群系地区观察到的那样,它对潮湿环境(占Stot的70%至90%)的影响更为显著。马托格罗索州塞拉多(Cerrado)生物群系(热带草原)地区的空气相对湿度和风速在旱季具有较高的敏感性指数(分别占Stot的20%和30%)。研究结果表明,太阳辐射、相对湿度和风速的变化是影响参考蒸散量的主要驱动力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Global Sensitivity of Penman–Monteith Reference Evapotranspiration to Climatic Variables in Mato Grosso, Brazil
Understanding how climatic variables impact the reference evapotranspiration (ETo) is essential for water resource management, especially considering potential fluctuations due to climate change. Therefore, we used the Sobol’ method to analyze the spatiotemporal variations of Penman–Monteith ETo sensitivity to the climatic variables: downward solar radiation, relative humidity, maximum and minimum air temperature, and wind speed. The Sobol’ indices variances were estimated by Monte Carlo integration, with sample limits set to the 2.5th and 97.5th percentiles of the daily data of 33 automatic weather stations located in the state of Mato Grosso, Brazil. The results of the Sobol’ analysis indicate considerable spatiotemporal variations in the sensitivity of ETo to climatic variables and their interactions. The dominant climatic variable responsible for ETo fluctuations in Mato Grosso is incident solar radiation (53% to 93% of annual total sensitivity—Stot), which has a more significant impact in humid environments (70% to 90% of Stot), as observed in the areas of the Amazon biome in the state. Air relative humidity and wind speed have higher sensitivity indices during the dry season in the Cerrado biome (savanna) areas in Mato Grosso (20% and 30% of the Stot, respectively). Our findings show that changes in solar radiation, relative humidity, and wind speed are the main driving forces that impact the reference evapotranspiration.
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Earth
Earth Earth and Planetary Sciences-Earth and Planetary Sciences (all)
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