Journal of Hydrology: Regional Studies (Apr 2023)
The optimal time-scale of Standardized Precipitation Index for early identifying summer maize drought in the Huang-Huai-Hai region, China
Abstract
Study region: The Huang-Huai-Hai region (HHH). Study focus: The optimal time-scales of Standardized Precipitation Index (SPI) for early drought identification was determined by using meteorological data and agrometeorological disaster observation records of summer maize in HHH in this study. Two performance measures were used, one is accuracy, defined as the proportion of the drought samples identified by SPI in the total samples, and the other is sensitivity, defined as the ratio of the number of early recognized samples to the number of identified samples. New hydrological insights for the region: The SPI can be calculated with only precipitation at any time-scales, mainly including 3-, 6-, 12-, or 24-month periods in previous studies. However, the growth period of maize is only 3–4 months, and the SPI with more than 3-month time-scales may not be applicable for maize drought identification. Additionally, meteorological drought is considered to be the origin for agricultural drought. It is important to identify meteorological drought signals in advance by using applicable time-scale SPI to avoid crop yield reduction. Results showed that 10-day SPI (SPI10) was the optimal index for drought identification with the highest accuracy (95.8 %) and sensitivity (77.72 %). Additionally, most of the drought samples identified by SPI10 were 0–16 days ahead of the observed onset date. The findings can provide theoretical guidance for early warning and near real-time monitoring for summer maize drought disasters in HHH.
