1. Direct, geodetic and simulated mass balance studies of the Kolahoi Glacier in the Kashmir Himalaya, India.
- Author
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Romshoo, Shakil Ahmad, Abdullah, Tariq, Murtaza, Khalid Omar, and Bhat, Mustafa Hameed
- Subjects
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MASS budget (Geophysics) , *WATER supply , *GLACIERS , *METHYLENE blue , *STREAMFLOW , *CLIMATE change - Abstract
• Kolahoi Glacier had higher mass loss more than the majority of Western Himalayan glaciers. • Mass balance of the glacier during 1980–2019 shows significant inter-annual variation. • Glacier mass loss showed a good relation with observed temperature and precipitation. • Glacier mass loss and depleting glacier-melt streamflow exhibits a strong link. Knowledge of glacier mass balance (MB) is critical for understanding glacier-climate interactions and projecting future water availability in the data-scarce Himalayan region. In this study, we present the glaciological (2014–2019), geodetic (2000–2014) and reconstructed (1980–2019) MB of the Kolahoi Glacier (KG) in the Kashmir Himalaya, India. During the five-year observation period, the average in situ MB of the Glacier was −0.83 ± 0.34 m w.e. a−1, with significant inter-annual variation. The mean annual geodetic MB of the KG between 2000 and 2014 was −0.90 ± 0.09 m w.e. The reconstructed MB revealed four distinct glacier recession episodes since 1980. The Period I (1980–1990) showed a reduced mass loss of −0.27 ± 0.42 m w.e. a−1, with four years of positive mass balance. The Period II (2000–2010), on the other hand, experienced the highest mass loss of −1.18 m w.e. a−1 throughout the entire reconstructed MB series. All three MB measurement- in situ, geodetic and simulated agreed well. The MB showed an excellent correspondence with the observed temperature and precipitation. Analysis of the data revealed that the MB is sensitive to temperature at the rate of −0.65 m w.e. a−1 °C−1, but the sensitivity is only 0.13 m w.e. a−1 for a 10% change in precipitation. Furthermore, there is a good correlation between the simulated glacier mass loss and depleting glacier-melt in the autumn streamflow. The mass loss of the KG is expected to exacerbate in future as a result of the projected climate change, and thus further diminishing the streamflow of the transboundary rivers emanating from the region. It is envisaged that the findings will contribute to a better understanding of glacier-climate interactions and their implications for future water availability in the Kashmir Himalaya. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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