Forecasting Channel Morphodynamics in the Ulken Almaty River (Ile Alatau, Kazakhstan)
Mussina A. Tursyngali M. Duskayev K. Rodrigo-Ilarri J. Rodrigo-Clavero M.-E. Abdullayeva A.
July 2025Multidisciplinary Digital Publishing Institute (MDPI)
Water (Switzerland)
2025#17Issue 13
This article focuses on forecasting morphological changes in small rivers, using the Ulken Almaty River, located on the northern slope of the Ile Alatau range in the Tien Shan mountain system, as a case study. One of the key components of river morphology is the dynamics of channel processes, including erosion, accretion, and the shifting of channel forms. Understanding these processes in rivers flowing through urbanized areas is essential for mitigating environmental and infrastructural risks. Despite their importance, studies of this nature in Kazakhstan remain at a formative stage and are largely fragmentary, underscoring the need for modern approaches to river morphology analysis. Three representative sections of the Ulken Almaty River (upstream, midstream, and downstream) were selected for analysis. Satellite imagery from 2012 to 2021 was used for manual digitisation of river channel outlines. Annual erosion and accretion areas were calculated based on these data. The DSAS 5.1 module, integrated into ArcGIS 10.8.1, was applied to determine the rates of erosion and accretion over the ten-year period. To forecast future channel changes, the Kalman filter model was employed, enabling projections for 10 and 20 years into the future. A comparative analysis of the intensity of the erosion and accretion processes was conducted for each river section. Spatial and temporal variations in bank dynamics were identified, with the most significant changes occurring in the middle and lower reaches. Forecasted scenarios indicate the possible deformation pathways of the river channel influenced by both natural and anthropogenic factors. The results provide valuable insights into the spatiotemporal dynamics of fluvial processes in small mountain rivers under the pressure of urban development and climatic variability. The methodology employed in this study offers practical applications for urban planning, river management, and the mitigation of geomorphological hazards.
channel morphodynamics , Kalman filter , Kazakhstan , remote sensing , small mountain rivers
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Department of Meteorology and Hydrology, Al-Farabi Kazakh National University, Almaty, 050040, Kazakhstan
Instituto de Ingeniería del Agua y del Medio Ambiente (IIAMA), Universitat Politècnica de València, Valencia, 46022, Spain
Department of Meteorology and Hydrology
Instituto de Ingeniería del Agua y del Medio Ambiente (IIAMA)
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