Akademik Veri Yönetim Sistemi
Theoretical and Applied Climatology, cilt.157, sa.2, 2026 (SCI-Expanded, Scopus)
In this study we analyzed variability of precipitation patterns all over The Middle East and North Africa and Türkiye (MENA-T) based on in-situ data from 150 stations and hourly ERA5 reanalysis data with the spatial resolution of 0.25° × 0.25°. The study period covers 85 years between 1940 and 2024. Long-term variability of 13 duration, magnitude, intensity, and frequency-based precipitation indices are mapped to reveal the spatial characteristics. Results indicated that reanalysis data are capable of hindcasting in-situ precipitation data with an overall average correlation coefficient of 0.72 (varying between 0.56 and a maximum of 0.82 among all 150 stations). The results highlight a distinct north–south dipole in precipitation trends across the region. Duration-based indices reveal a significant increase in consecutive dry days across the southwestern Arabian Peninsula, Libya, southern Algeria, and northern Egypt signaling a trend toward intensifying aridity in these already dry areas. Conversely, northern coastal and mountainous zones show decreasing dry spell durations, reflecting a shift toward more frequent or prolonged wet periods. Magnitude- and intensity-based indices, such as annual total wet-day precipitation, precipitation from very wet days more than 95%, and maximum 1-day precipitation indicate an increase in extreme rainfall in the wetter northern regions, particularly in Türkiye, Iran, and Iraq. In contrast, these indices exhibit declining trends across southern MENA-T. Similarly, frequency-based indices show a reduction in wet-day occurrences across arid zones, while the Mediterranean and highland regions display modest increases, suggesting growing disparities in regional hydroclimatic behavior under ongoing climatic shifts.