Journal of Water and Climate Change (Nov 2021)

Assessment of the morphological trends and sediment dynamics in the Indus River, Pakistan

  • Muhammad Waseem Boota,
  • Chaode Yan,
  • Muhammad Bilal Idrees,
  • Ziwei Li,
  • Shan-e-hyder Soomro,
  • Ming Dou,
  • Muhammad Zohaib,
  • Ayesha Yousaf

DOI
https://doi.org/10.2166/wcc.2021.125
Journal volume & issue
Vol. 12, no. 7
pp. 3082 – 3098

Abstract

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The Lower Indus reaches – Guddu and Sukkur – are among the most complicated areas in terms of reach migration. Both climate change and human activities in recent periods along with pond system operation accelerated riverine channel morphology. A GIS-based approach using multi-temporal Landsat images (1986–2020) was employed to characterize the morphometric parameters. Results showed that width of the study reaches varied from 2.1 to 12 km. The braiding index (BI) value for Guddu reach varied from 3.47 to 7.18, and BI value for Sukkur reach varied from 2.11 to 4.92. It is observed that no erosive activity of banks occurred for peak runoff value of <5,880 m3s−1. The sediment load during low flow (LF) period was estimated to be 0.715 million tons/day which comprised 77% fine sediment and 23% sand. The sediment load during high flood (HF) period was about 1.296 million tons/day. The median size (D50) of bed material during the HF period was 0.101–0.206 mm and during LF period was <0.0625 mm. The rough set theory (RST) showed that velocity, shear stress, slope, runoff, and sediment load factors are major contributors to the river shape changes. This study is a standpoint of planning flood recovery, riverine regulations, and navigation safety. HIGHLIGHTS Investigation of the climate change-based flood events on Indus River morphology.; Relationship between sediment concentration, runoff, and sediment deposition has been investigated.; RST showed that velocity, stress, slope, runoff and sediment factors are causing the river shape changes.; Findings are encouraging for developing alluvial river classification in the country to support better river management decisions.;

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