Analysis of Meteorological Drought Changes in Afghanistan Using SPI Index
##plugins.themes.academic_pro.article.sidebar##
Downloads
##plugins.themes.academic_pro.article.main##
Abstract
Meteorological drought, as a natural and significant phenomenon in the field of hydrometeorology, refers to the scarcity of precipitation and moisture in a specific region. This research was conducted with the objectives of understanding the intensity and duration of weather droughts in Afghanistan, categorizing the extent of weather droughts in Afghanistan, and detecting the trend of weather droughts across the country. To investigate the droughts in Afghanistan, daily precipitation data from the Afrodite database version V1101 was utilized, which covered the statistical precipitation records during the period of 1950-2015. Using the Standardized Precipitation Index (SPI) as a measure of drought severity, duration, and frequency, the status of droughts was examined. Based on the analysis, significant trends of droughts were observed in the northern, northeastern, southwestern, and northwestern regions of Afghanistan. Furthermore, the results indicated the occurrence of three periods: wet, normal, and drought, during the study period. The climatic conditions classification during our study period demonstrated that mild moist conditions occurred repeatedly in certain regions of Afghanistan, especially in provinces such as Khost, Paktia, Logar, Kabul, eastern Ghazni, Parwan, Panjshir, Bamyan, Kunduz, southern Takhar, Balkh, Jawzjan, Faryab, Badghis, and northern Herat. On the contrary, severe droughts were more prevalent in the eastern, northeastern, central, and southern regions of Afghanistan. Additionally, mild and moderate droughts were observed in many areas.
Keywords
Afghanistan, Aphrodite, climate, change, meteorological, drought, precipitation##plugins.themes.academic_pro.article.details##
References
- Bento, V. A., Gouveia, C. M., DaCamara, C. C., & Trigo, I. F. (2018). A climatological assessment of drought impact on vegetation health index. Agricultural and forest meteorology, 259, 286-295.
- C.M, A.M., Chowdary, V.M., Kesarwani, M. et al. Integrated drought monitoring and assessment using multi-sensor and multi-temporal earth observation datasets: a case study of two agriculture-dominated states of India. Environ Monit Assess 195, 1 (2023).
- Flohn, H. (1969). Zum Klima und Wasserhaushalt des Hindukuschs und der benachbarten
- Hochgebirge (The Climate and Water-Budget of the Hindu Kush and Neighbouring
- Mountain Ranges). Erdkunde, 23(3) 205-215.
- Livada, I., & Assimakopoulos, V. D. (2007). Spatial and temporal analysis of drought in Greece using the Standardized Precipitation Index (SPI). Theoretical and applied climatology, 89(3), 143-153.
- Nami, 1387. Geography of Afghanistan: Publications of the Geographical Organization of the Armed Forces
- Nazari Poua, H., and Khosrowshahi, M. (2012). Investigating and determining the most appropriate meteorological drought index to assess drought in Hamadan province. Iran Pasture and Desert Research, 20(4 (53 series)), 625-633.
- Raushi, A., and Mahmoud, A., and Saberi, M. 2018. Investigating vegetation changes using NDVI index and Modis sensor in Balkh province (Afghanistan), the second national conference of new ideas and technologies in geographic sciences, Zanjan.
- Shiru, M. S., Shahid, S., Chung, E. S., & Alias, N. (2019). Changing characteristics of meteorological droughts in Nigeria during 1901–2010. Atmospheric Research, 223, 60-73.
- Snetkov, A. (2013). The Regional Dimensions to Security: Other Sides of Afghanistan. Springer.
- Zhang, L., & Zhou, T. (2015). Drought over East Asia: a review. Journal of Climate, 28(8),
- -3399.