Abstract
The Hindu Kush range of northern Pakistan has a large variety of Alpine and valley glaciers. These glaciers are subjected to volumetric changes owing to a host of factors (i.e. altitude, slope, glacier types, and aspect). The geodetic survey and field-based data are not available for assessment of glacier’s Equilibrium Line Altitude (ELA) for Hindu Kush due to rough topography and rigorous climate. However, the mass balance of the alpine and valley glaciers can be obtained through ELA and Accumulation Area Ratio (AAR). Therefore, this study deals with the estimation of ELA, the hypsometrically controlled methods based on AAR and Accumulation Area Balance Ratio (AABR). Various ratios between 0.4–0.8 with 0.05 interval for AAR and 0.67–4.4 with 0.01 for AABR are applied to obtain the ELA of valley glaciers. Moreover, the glacier contours with the interval of 50 m ± 5 m were employed for these estimations. The constant AAR and AABR ratios rather than constant glacier area adjust glacier hypsometry based on ELA variations. The results show that for AAR (0.5), 50 m ELA declined from 5409 to 5359 m and reduced (4%) the geometric area. The maximum decrease of 150 m ELA for these glaciers is reported for the AAR-AABR ratio of 0.1–4.4, showing a significant decrease. The estimated decrease in the glacier area of Hindu Kush is extremely variable specifically in Phargam, Khorabohr and Gordoghan.
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Sidra Bibi conceived the presented idea, and collected the data. Sidra Bibi drafted the manuscript with support from Muhammad Shafique and Neelum Ali. Sidra bibi and Neelum Ali contributed to the interpretation and analysis of the data. Liaqat Ali and Rehman Gul provided critical feedback and helped shape the manuscript. Moreover, Shahla Nazneen and Siddique Ullah Baig prepared the graphs and contributed to addressing the issues raised by reviewers and revising of the manuscript.
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Communicated by: H. Babaie
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Bibi, S., Shafique, M., Ali, N. et al. Estimation of glacier mass balance using remote sensing and GIS technology in the Hindu Kush region of northern Pakistan. Earth Sci Inform 16, 193–203 (2023). https://doi.org/10.1007/s12145-022-00930-4
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DOI: https://doi.org/10.1007/s12145-022-00930-4