Global Sensitivity Analysis of the Standardized Precipitation Evapotranspiration Index at Different Time Scales in Jilin Province, China

Global Sensitivity Analysis of the Standardized Precipitation Evapotranspiration Index at Different Time Scales in Jilin Province, China

The Standardized Precipitation Evapotranspiration Index (SPEI) has been widely applied, due to its multi-scalar features and the ability to identify different drought types. However, its sensitivity to climatic variables still remains unclear, especially at different time scales. Therefore, this stu...

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Bibliographic Details
Main Authors: Rui Zhang, Taotao Chen, Daocai Chi
Format: Article
Language:English
Published: MDPI AG 2020-02-01
Series:Sustainability
Subjects:
trend analysis
sensitivity analysis
penman-monteith
jilin
spei
efast
Online Access:https://www.mdpi.com/2071-1050/12/5/1713
Description
Summary:The Standardized Precipitation Evapotranspiration Index (SPEI) has been widely applied, due to its multi-scalar features and the ability to identify different drought types. However, its sensitivity to climatic variables still remains unclear, especially at different time scales. Therefore, this study investigates the sensitivity of SPEI to average temperature (<i>T<sub>mean</sub></i>), diurnal temperature ranges (<i>T<sub>delta</sub></i>), relative humidity (<i>RH</i>), solar radiation (<i>Rs</i>), wind speed (<i>U</i><sub>2</sub>), geothermal flux (<i>G</i>), and precipitation (<i>P</i>) from 1957 to 2017 using the extended Fourier Amplitude Sensitivity Test at different time scales in Jilin Province, China. Jilin Province experienced a significant rise in <i>T<sub>mean</sub></i>, and a sharp decrease in <i>T<sub>delta</sub></i>, <i>Rs</i>, and <i>U</i><sub>2</sub>. <i>P</i> is undoubtedly the most influential factor to the SPEI among the meteorological variables, which explained 59.9%&#8722;97.9% of the total variability, especially during the main crop growing season (from May to September). While <i>T<sub>mean</sub></i>, <i>RH</i>, or <i>U</i><sub>2</sub> observably affect the SPEI and cannot be neglected during the nongrowing season. In terms of spatial distribution, the SPEI was mainly affected by <i>P</i> in the eastern region, while it was also influenced by <i>T<sub>mean</sub></i>, <i>RH</i>, and <i>U</i><sub>2</sub> as well in the western region. The sensitivity of the SPEI differs in time scales: <i>P</i> &gt; <i>T<sub>mean</sub></i> &gt; <i>RH</i> &gt; <i>U</i><sub>2</sub> &gt; <i>Rs</i> &gt; <i>G</i> &gt; <i>T<sub>delta</sub></i> (1 to 6 month), <i>P</i> &gt; <i>U</i><sub>2</sub> &gt; <i>RH</i> &#8776; <i>T<sub>mean</sub></i> &gt; <i>G</i> &gt; <i>Rs</i> &gt; <i>T<sub>delta</sub></i> (7 to 18 month), and <i>P</i> &gt; <i>U</i><sub>2</sub> &gt; <i>G</i> &gt; <i>T<sub>mean</sub></i> &gt; <i>RH</i> &gt; <i>Rs</i> &gt; <i>T<sub>delta</sub></i> (more than 24 month time scale), respectively. The results have the potential to provide a reference for agricultural production and management in Jilin Province, China.
ISSN:2071-1050

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