Anchor Ice Dams and Water–Ice Flows on the Rivers of the Mountains of Southeastern Kazakhstan
Zhdanov V. Blagovechshenskiy V. Medeu A. Aldabergen U. Kamalbekova A. Ranova S.
January 2025Multidisciplinary Digital Publishing Institute (MDPI)
Water (Switzerland)
2025#17Issue 1
Anchor ice dams and water–ice flows are widespread on the mountain rivers of Southeastern Kazakhstan. Due to the mild winter climate, continuous ice cover is not formed on these rivers. During severe cold spells, anchor and shore ice accumulate in various river sections and causes water levels to rise by 1.5–2 m compared to winter low flows. In the event of a rapid warming, the ice breaks apart, forming water flows mixed with ice debris similar to mudflows. These flows move at high speeds and can cause significant destruction and loss of life. Our research aims to study the characteristics and formation conditions of these flows. Statistical methods were applied to analyze the data, revealing that thermal conditions greatly influence the formation of anchor ice. During these periods, minimum air temperatures drop below −20 °C, and the rate of cooling can reach 10 °C per day. An empirical formula for water level rise based on cumulative daily air temperatures was derived. The ice dam growth rate reaches 61 cm/day. Rapid ice breakage occurs during sharp warming periods. Sometimes this causes destructive water–ice flows similar to mudflows. The volume of the water–ice flow can exceed 10,000 m3, the path length can reach 8 km, the maximum speed exceeds 10 m/s, the flow depth can reach 5 m, and the discharge can be as high as 300 m3/s. The Random Forest algorithm identified characteristic meteorological conditions for water–ice flow formation. The most important meteorological parameters for the formation of water–ice flows are the 5-day sum of daily air temperature during the cooling period and the daily gradient of air temperature during the warming period.
anchor ice dams , Random Forest algorithm , Southeastern Kazakhstan , water–ice flows , winter floods
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Institute of Geography and Water Safety, Seyfullin av. 458/1, Almaty, 050000, Kazakhstan
Faculty of Geography, Al-Farabi Kazakh National University, Almaty, 050040, Kazakhstan
Institute of Geography and Water Safety
Faculty of Geography
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