Publications

Wang, NX; Zhang, QY; Sun, SX; Wang, H; He, MX; Zheng, PM; Wang, RQ (2022). A sandstorm extreme event from the Yellow River Basin in March 2021: Accurate identification and driving cause. SCIENCE OF THE TOTAL ENVIRONMENT, 846, 157424.

Abstract
Sandstorm is a natural meteorological disaster that can appear suddenly and is often extremely destructive. In areas with small number of meteorological observation stations, it is difficult to effectively monitor sandstorm. Moderate Resolution Imaging Spectroradiometer (MODIS) data have the characteristics of high resolution and wide coverage, making it possible to monitor dynamic weather changes in a large area over time, and such data are widely used in sandstorm monitoring. The purpose of our research was to achieve a more accurate identification of sandstorm accord-ing to the differences in reflectance and brightness temperature between sandstorm and other phenomena, and to bet-ter understand the formation, movement track and driving cause of sandstorm extreme event. Taking the intense sandstorm event that occurred in the Yellow River Basin from March 13th to 18th, 2021 as an example, sandstorm pro-cess was analyzed based on MODIS data and meteorological monitoring data. The threshold of Normalized Difference Dust Index (NDDI) and Normalized Brightness Temperature Dust Index (NBTDI) realized accurate sandstorm monitor-ing and quantification of the sandstorm coverage areas. Sandstorm covered 32.89 % and 37.23 % of the total areas of the Yellow River Basin on March 15th and 16th, 2021, respectively. In addition, observation data from 22 meteorolog-ical stations also provided an important reference for further understanding of sandstorm weather. The intense sand-storm event in China on March 15th, 2021 originated from the dust in Mongolia. This sandstorm event caused great damage to the ecological environment and caused serious losses to people's lives and properties. This study improved the monitoring of sandstorm by remote sensing technology, and the results had importance for the long-term monitor-ing and prevention of sandstorm.

DOI:
10.1016/j.scitotenv.2022.157424

ISSN:
1879-1026