Articles

Reconstruction of July-September standardized precipitation-evapotranspiration index (SPEI) for the Hindu Kush region of Northern Pakistan

Asad, Fayaz; Adil, Muhammad; Khan, Nasrullah; Rao, Mukund Palat; Alrefaei, Abdulwahed Fahad; Almutairi, Mikhlid H.; Ali, Sajid

The prolonged drought resulting from global warming is considered an important factor affecting West Asia's socioeconomic growth, with a significant impact on the dynamic forecasting of water supply and forest ecosystems. In such a scenario, understanding historical long-term drought changes is crucial for accurately forecasting regional drought shifts in the Hindukush region. In this study, a 517-year (1506–2022 C.E.) long tree-ring width chronology of the Himalayan Cedar (Cedrus deodara D. Don) from the eastern Hindukush has been developed. The July-September Standardized Precipitation-Evapotranspiration Index (SPEI) has revealed a positive and significant relationship (r = 0.633, p < 0.001) with tree growth, which leads to SPEI reconstruction from AD 1626 in the Hindu Kush region. Our reconstruction model has explained 40.1% of the climate variance during the instrumental period from C.E. 1965 to 2018. Fourteen wet periods (≥ 3 years) were observed before the instrumental period, specifically in C.E. 1629–1635, 1638–1658, 1666–1674, 1680–1701, 1715–1724, 1770–1776, 1794–1797, 1802–1810, 1822–1846, 1850–1857, 1872–1881, 1883–1890, 1906–1914, and 1921–1937. Similarly, twelve dry summer periods were also observed in the past 339 years, such as C.E. 1659–1665, 1675–1679, 1702–1714, 1725–1769, 1777–1793, 1798–1801, 1811–1821, 1847–1849, 1858–1871, 1891–1905, 1915–1920, and 1938–1963. Nevertheless, AD 1663 was individually the wettest (with a value of 2.13), while AD 1754 was the driest (−0.99) year. The spatial correlation analysis and its comparisons with Karakoram-Himalayan drought and precipitation reconstructions have convincingly confirmed the reliability of our SPEI reconstruction. Consequently, this reconstruction can effectively serve as a proxy for large-scale drought variability in the Hindu Kush region of northern Pakistan. Our findings strongly suggest the considerable dendrochronological potential for further climatological studies in the western Hindu Kush Mountains System.

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Title
Environmental Research Communications
DOI
https://doi.org/10.1088/2515-7620/ad431f

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