Abstract
This study aimed at investigating the applicability of a SWAT (Soil and Water Assessment Tool) model in understanding the effects of drought on winter wheat. This study is based on the water requirement of the crop and addresses the absence of a SWAT model with real-time irrigation simulation. A real-time irrigation module was developed for the downstream irrigation area of the Yellow River to estimate the real-time irrigation of crops. By further simulating the dynamic evolution process of soil moisture content, a dynamic drought evaluation model of winter wheat was established, and the relative soil moisture was set as the evaluation index to assess and analyze the dynamic variation of drought evolution during the growth of winter wheat. The results showed that the improved SWAT model has strong applicability. During the growth of winter wheat, the variation trend of droughts is consistent with that of natural precipitation. For winter wheat, drought is quite normal during all growth stages, and the average frequency is 93.5%, 89.1%, 84.8%, 89.1% and 95.7%. Severe drought and extra-severe drought usually occur during the sowing–tillering stage and the tillering–greening stage, and the frequency of occurrence is 30.4% and 19.6%, respectively. This paper provides a novel approach for the study of agricultural drought in the downstream irrigation area of the Yellow River.
Highlights
Drought is a recurring natural phenomenon that has plagued civilization throughout its history [1]
The concept of drought is usually divided into meteorological drought, hydrological drought and agricultural drought
Agricultural drought is defined as the phenomenon of reduction in the crop yield or even total crop failure due to the decrease in the soil moisture content during the crop growth period [3,4], and it is caused by meteorological drought and hydrological drought [5]
Summary
Drought is a recurring natural phenomenon that has plagued civilization throughout its history [1]. The concept of drought is usually divided into meteorological drought, hydrological drought and agricultural drought. It represents the water shortage caused by the co-demand imbalance of meteorological, runoff and crops, respectively [2]. Agricultural drought is defined as the phenomenon of reduction in the crop yield or even total crop failure due to the decrease in the soil moisture content during the crop growth period [3,4], and it is caused by meteorological drought and hydrological drought [5]. Agricultural dynamic drought refers to the process of the dynamic change of agricultural drought based on real-time dynamic monitoring data of drought occurrence and development. Agricultural drought research based on realtime dynamic monitoring data can improve the accuracy of drought assessment [7,8]
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