Bathymetries of proglacial lakes: a new data set from the northern Tien Shan, Kazakhstan

Kapitsa V. Shahgedanova M. Kasatkin N. Severskiy I. Kasenov M. Yegorov A. Tatkova M.
2023 Frontiers Media SA

Frontiers in Earth Science
2023 #11

Between 2009 and 2020, 74 bathymetric surveys of 57 glacial lakes were conducted in the northern Tien Shan using the ecosounding technique. The surveys provided data on lake depths and other parameters characterising the three-dimensional lake geometry, and bathymetrically derived lake volumes. The sample included 21 glacier-connected lakes, 27 lakes formed on the young moraines without glacier-connected with glacier tongue, eight lakes formed on the older moraines and one rock-dammed lake. The lakes’ volumes ranged between 0.029x10⁵ and 53.89x10⁵ m³ with the largest value of mean depth was 23 m. There is a statistically significant correlation between lake depth and width, length and area, best approximated by the power, linear, and polynomial models, with coefficients of determination ranging between 0.50 and 0.78 for the glacier-connected lakes. The power equations underestimated both depths and volumes of larger lakes but the second-order polynomial model provided a closer approximation in the study region. The obtained data were combined with the bathymetrically derived depth and volume data published in the literature extending the global data set of bathymetries of lakes with natural dams. The area-depth scaling equations derived from the combined data set showed a considerable improvement in correlation between area and depth in comparison with the earlier studies. The measured bathymetries of the glacier-connected lakes were compared with bathymetries of the same lakes simulated using GlabTOP2 model and published simulated ice thickness data. There is generally a good agreement between the measured and simulated bathymetries although GlabTOP2 tends to overestimate lake depths. The data from the bathymetric surveys and GlabTOP2 model are used by the practitioners to reduce and avoid risks associated with glacier lake outburst floods and are important instruments of the regional strategy of adaptation to climate change. Copyright

adaptation , Central Asia , climate change , debris flow , GlabTOP , glacier lake , GLOF , hazards

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Central Asian Regional Glaciological Centre Under the Auspices of UNESCO, Almaty, Kazakhstan
Department of Geography and Environmental Science, University of Reading, Reading, United Kingdom
Kazakhstan State Agency for Mudflow Protection, Almaty, Kazakhstan
Faculty of Geography and Environmental Sciences, Al Farabi Kazakh National University, Almaty, Kazakhstan

Central Asian Regional Glaciological Centre Under the Auspices of UNESCO
Department of Geography and Environmental Science
Kazakhstan State Agency for Mudflow Protection
Faculty of Geography and Environmental Sciences

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