Vegetation cover plays a key role in reducing wind erosion and improving air quality in different parts of the
world. However, little is known about the long-term period seasonal changes in vegetation anomalies and their
effects on wind erosion in Iran. Therefore, in the current research, the seasonal changes in vegetation cover and
the level of wind erosion activity across the country from 2000 to 2018 have been identified in detail using the
Normalized Difference Vegetation Index anomaly (NDVIA) and the dust concentration anomaly (DCA), respectively. Furthermore, the nonparametric Mann–Kendall test and Sen’s slope estimator were used to evaluate the
variable trend changes. The bivariate correlation analysis was performed to determine the relationship between
NDVIA and DCA in the spring, summer, autumn, winter, and growing season. The agricultural drought was
further monitored for the season when the strongest correlation between vegetation changes and the activity of
wind erosion events was observed. The NDVIA and DCA maps were spatially analyzed to identify areas affected
by drought and wind erosion, respectively. Results indicated that across the whole country, the NDVIA increased
significantly in the autumn and growing season (Z>+2; α < 0.05) while the DCA had a significant decreasing
trend in the spring and growing season (Z < -2.5; α < 0.05). The results of correlation analysis indicated that
NDVIA corresponded well with the DCA in the spring (R = − 0.58; P < 0.05), summer (R = − 0.52; P < 0.05) and
growing season (R = − 0.67; P < 0.01) while no meaningful correlation was found between them in the winter
and autumn (R<− 0.25; P>0.05). Agricultural drought monitoring using the growing season NDVIA showed that
about 85%, 72%, 67%, 63%, 62%, and 61% of Iran has experienced this phenomenon over the years 2008, 2000,
2018, 2002, 2006, and 2003, respectively. The DCA maps displayed more than 54% of the country has suffered
from the intensification of the wind erosi