Abstract
The Upper Indus Basin (UIB) features the high mountain ranges of the Hindukush, Karakoram and Himalaya (HKH). The snow and glacier meltwater contribution feeds 10 major river basins downstream including Astore, Gilgit, Hunza, Jhelum, Kabul, Shyok and Shigar. Climate change is likely to fluctuate the runoff generated from such river basins concerning high and low streamflows. Widening the lens of focus, the present study examines the magnitude and timing of high flows variability as well as trends variability in low streamflows using Sen’s slope and the Mann-Kendall test in UIB from 1981 to 2016. The results revealed that the trend in the magnitude of the high flows decreased at most of the sub-basins including the Jhelum, Indus and Kabul River basins. Significantly increased high flows were observed in the glacier regime of UIB at Shigar and Shyok while decreased flows were predominant in Hunza River at Daniyor Bridge. A similar proclivity of predominantly reduced flows was observed in nival and rainfall regimes in terms of significant negative trends in the Jhelum, Kunhar, Neelum and Poonch River basins. The timing of the high flows has not changed radically as magnitude at all gauging stations. For the low flows, decreasing significant trends were detected in the annual flows as well as in other extremes of low flows (1-day, 7-day, 15-day). The more profound and decreasing pattern of low flows was observed in summer at most of the gauging stations; however, such stations exhibited increased low flows in autumn, winter and spring. The decrease in low flows indicates the extension of dry periods particularly in summer. The high-water demand in summer will be compromised due to consistently reducing summer flows; the lower the water availability, the lower will be the crop yield and electricity generation.
Highlights
Climate change appears to accelerate the hydrological cycle which is expected to increase the frequency and impact of extreme events such as droughts and floods [1,2,3,4].The hydrological cycle may impact significantly the water resources due to changing climate [5,6]
Variability and Trend Detection in Timing of High Flows riversBasin, of UIBannual are more sensitive towards the temporal changes rather
The present study observed the predominance of decreasing trends based on annual and seasonal time series analysis of low and high flows in Upper Indus Basin (UIB)
Summary
Climate change appears to accelerate the hydrological cycle which is expected to increase the frequency and impact of extreme events such as droughts and floods [1,2,3,4]. The hydrological cycle may impact significantly the water resources due to changing climate [5,6]. The spatial and temporal water resource availability will be negatively affected, which will have serious repercussions on major sectors such as agriculture, industry and urban development [9,10,11]. The changing climate and concerning hydro-meteorological implications on glaciers in the HKH attracted efforts from the scientific community towards the assessment of the glacier dynamics in terms of glacier retreat, advancement, stability, or the surge-like stability [13,14,15,16]
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