Geomatics, Natural Hazards & Risk (Dec 2024)

Unravelling flash flood dynamics of Song watershed, Doon Valley: key insights for floodplain management

  • Sanjay Kumar Dwivedi,
  • Praveen Kumar Thakur,
  • Pankaj Ramji Dhote,
  • Andrew Kruczkiewicz,
  • Mayank Upadhyay,
  • Antony Joh Moothedan,
  • Mps Bisht,
  • Raghavendra Pratap Singh

DOI
https://doi.org/10.1080/19475705.2024.2378979
Journal volume & issue
Vol. 15, no. 1

Abstract

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The Himalayan foothills are highly prone to rainfall induced flash floods. This research focuses on the August 19–20, 2022 flash flood event in Song watershed of Doon valley, Uttarakhand caused significant damages to buildings and a road bridge. The study aims to assess the flood intensity through flood simulation in a semi-distributed hydrological model by utilizing rainfall data, land use and soil data. Further, the flood hydrographs generated through hydrological modelling were used to simulate hydrodynamic model to estimate flood depth. Pre and post-flood inundation assessments were conducted using PlanetScope and Sentinel-1 imagery. Furthermore, development activities on river courses were analyzed utilizing Google earth and Bing maps high resolution imagery. Cumulative rainfall observations revealed 344 mm rainfall in Rishikesh and 225 mm in Sahastradhara on 19–20 August for the 24 hrs, contributed in a peak flood discharge 2679 m3/s at the Rishikesh outlet. The simulated flood depth depicted 4.81 m flood depth at the damaged Thano-Bhogpur bridge. The PlanetScope satellite imagery showed 182 m expansion in the cross-sectional width of river at Maldevta after the flood. A 5.36 sq. km. flood area observed throughout the entire Song catchment in two days post event Sentinel-1 imagery. Analysis of high-resolution imageries revealed increasing development activities in floodplains of the catchment, which got affected by flood. The findings indicate urgent need of floodplain management by implementing comprehensive flood risk management plans including early warning systems, land-use regulations based on flood hazard zonation and flood resilient infrastructure to mitigate future flood exposure to society.

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