Estimation of sediment load for Himalayan Rivers: Case study of Kaligandaki in Nepal
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Ó Indian Academy of Sciences (0123456789().,-volV)(0123456789( ).,-volV)
Estimation of sediment load for Himalayan Rivers: Case study of Kaligandaki in Nepal PENNAN CHINNASAMY1,2,*
and ADITYA SOOD2
1 Indian 2
Institute of Technology Bombay, Powai, Mumbai 400 076, India. International Water Management Institute, Sunil Mawatha, Battaramulla, Sri Lanka. *Corresponding author. e-mail: [email protected] MS received 21 February 2020; revised 2 May 2020; accepted 12 May 2020
Himalayan regions have increasing sediment yield due to undulating topography, slope and improper watershed management. However, due to limited observation data, and site accessibility issues, less studies have quantiBed sedimentation loads in the Himalayas, especially Nepal. This has hindered the investments on run-of-river hydropower projects as high and unpredicted sedimentation has increased losses in hydropower production. Therefore, there is a need to understand key physical processes driving sedimentation in these regions, with the available data. This study used the Soil and Water Assessment Tool (SWAT) to estimate the sedimentation yields in the Kaligandaki basin of Nepal, which is an important tributary that drains into the Ganges. Multi-source data from Beld observations, remote sensing platforms, surveys and government records were used to set up and run the SWAT model for the Kaligandaki basin from 2000 to 2009. Results for the 10-year model run indicate that 73% of the total sediment load is estimated to come from the upstream regions (also known as High Himalayan region), while only 27% is contributed from the Middle and High Mountain regions (where land managementbased interventions were deemed most feasible for future scenarios). The average sediment concentration was 1986 mg/kg (ppm), with values of 8432 and 12 mg/kg (ppm) for maximum and minimum, respectively. Such high sedimentation rates can impact river ecosystems (due to siltation), ecosystem services and hydropower generation. In addition, model results indicate the need for better high frequency observation data. Results from this study can aid in better watershed management, which is aimed at reducing sedimentation load and protecting Himalayan rivers. Keywords. Himalayan rivers; sediment load; hydropower; Nepal; SWAT.
1. Introduction Across the Himalayan region, it is increasingly recognized that erosion and sedimentation in the rivers present serious concerns for the river discharge, water storage and riverine ecosystem. This also directly challenges the operation and longterm sustainability of major hydropower projects, especially in mountainous regions (Egger et al. 2000; Shrestha 2000). For reservoir-based
hydropower projects, sedimentation directly impacts hydropower production and contributes to the losses due to reduction of reservoir storage capacity, damages the turbines and reduces the lifespan of the reservoir (Thapa et al. 2012; Koirala et al. 2016). In addition, sedimentation increases the operation costs due to the need for more frequent and expens
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