Assessment of the Impact of Climate Change on Snow Distribution and River Flows in a Snow-Dominated Mountainous Watershed in the Western Hindukush–Himalaya, Afghanistan

Abdul Haseeb Azizi,Yoshihiro Asaoka

doi:10.3390/hydrology7040074

Abdul Haseeb Azizi, Yoshihiro Asaoka

Open Access

https://doi.org/10.3390/hydrology7040074

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Abstract

Projected snow cover and river flows are important for planning and managing water resources in snow-dominated basins of the Himalayas. To quantify the impacts of climate change in the data scarce Panjshir River basin of Afghanistan, this study simulated present and future snow cover area (SCA) distributions with the snow model (SM), and river flows with the snowmelt runoff model (SRM). The SRM used the degree-day factor and precipitation gradient optimized by the SM to simulate river flows. Temperature and precipitation data from eight kinds of general circulation models (GCMs) were used for bias correction. The SM and SRM were first calibrated and validated using 2009–2015 data, and then bias-corrected future climate data were input to the models to simulate future SCA and river flows. Under both the representative concentration pathways (RCP) 4.5 and 8.5, the annual average SCA and river flow were projected to decrease in the mid and late 21st century, although seasonal increases were simulated in some instances. Uncertainty ranges in projected SCA and river flow under RCP 8.5 were small in the mid 21st century and large in the late 21st century. Therefore, climate change is projected to alter high-altitude stream sources in the Hindukush mountains and reduce the amount of water reaching downstream areas.

Highlights

Climate change is expected to alter the hydrological cycle and influence both water availability and demand [1]
The Snow Model (SM) developed for Panjshir sub-basin is a degree-day-based model that can efficiently simulate the spatiotemporal distribution of snowfall, the snow-covered area, the snowmelt rate, and the snow water equivalent (SWE) of the snowpack [46,47]
The significant drop in upstream discharges will have consequences for people in downstream areas, The main objective of this study was to simulate the effects of climate change on the snow cover who will likely experience severe water shortages in the future

Summary

Introduction

Climate change is expected to alter the hydrological cycle and influence both water availability and demand [1]. Glaciers are one of the most important indicators of climate change [4,5], and the HKH region is host to some of the world’s largest glaciers [6,7,8], which are the major water source of the Indus, Brahmaputra, and Ganges rivers [9,10]. These river basins are extremely sensitive to both spatial and temporal changes in climate [3]. The temperature is projected to increase in the HKH region by 1.7 ◦ C to 6.3 ◦ C by the end of the 21st century [12]

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