Copula-Based Drought Monitoring and Assessment According to Zonal and Meridional Temperature Gradients

• Published in: Atmosphere Vol. 12; no. 8; p. 1066
• Main Authors: Otkur, Abudureymjang, Wu, Dian, Zheng, Yin, Kim, Jong-Suk, Lee, Joo-Heon
• Format: Journal Article
• Language: English
• Published: Basel MDPI AG 01.08.2021
• Subjects: Agricultural production; China; Climate change; Complex variables; copula function; Datasets; Disasters; Drought; Drought characteristics; drought duration; Drought index; Drought monitoring; drought severity; Duration; Earthquakes; Environmental monitoring; Evapotranspiration; Evapotranspiration-precipitation relationships; land-ocean temperature contrast/meridional temperature gradient; Mathematical models; Meteorological conditions; Natural disasters; Oceans; Parameter estimation; Parameters; Precipitation; standardized precipitation evapotranspiration index; Temperature; Temperature gradients; Two dimensional models; Variables; China
• ISSN: 2073-4433; 2073-4433
• DOI: 10.3390/atmos12081066

Drought is one of the most severe natural disasters. However, many of its characteristic variables have complex nonlinear relationships. Therefore, it is difficult to construct effective drought assessment models. In this study, we analyzed regional drought characteristics in China to identify their relationship with changes in meridional and zonal temperature gradients. Drought duration and severity were extracted according to standardized precipitation evapotranspiration index (SPEI) drought grades. Trends in drought duration and severity were detected by the Mann-Kendall test for the period of 1979–2019; they showed that both parameters had been steadily increasing during that time. Nevertheless, the increasing trend in drought severity was particularly significant for northwest and southwest China. A composite analysis confirmed the relationships between drought characteristics and temperature gradients. The northwest areas were relatively less affected by temperature gradients, as they are landlocked, remote from the ocean, and only slightly influenced by the land–ocean thermal contrast (LOC) and the meridional temperature gradient (MTG). The impacts of LOC and MTG on drought duration and severity were positive in the southwest region of China but negative in the northeast. As there was a strong correlation between drought duration and severity, we constructed a 2D copula function model of these parameters. The Gaussian, HuslerReiss, and Frank copula functions were the most appropriate distributions for the northeast, northwest, and southwest regions, respectively. As drought processes are highly complex, the present study explored the internal connections between drought duration and severity and their responses to meteorological conditions. In this manner, an accurate method of predicting future drought events was developed.