Methods of improving the efficiency of monitoring of channel deformations of mountain rivers near built-in settlements: on the example of the Buktyrma river
Abstract
The results of research on the development of methods for increasing the efficiency of monitoring the channel deformations of mountain rivers using the methods of aerospace studies of the Earth and geoinformation systems are presented. Examples are given of estimating channel deformations, compiling morphological characteristics of the valley, floodplain and river bed, determining the scheme for the development of channel processes using public space imagery, scientific justification for erosion control measures.
Keyword : channel deformations, erosion of river banks, types of river channel processes, monitoring the channel deformations, the methods of aerospace studies, erosion control measures
How to Cite
Taukenov, T., Dzhanaleeva, K., & Yerzhanova, Z. (2018). Methods of improving the efficiency of monitoring of channel deformations of mountain rivers near built-in settlements: on the example of the Buktyrma river. Geodesy and Cartography, 44(1), 28-35. https://doi.org/10.3846/gac.2018.260
This work is licensed under a Creative Commons Attribution 4.0 International License.
References
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Chigrinets, L. Y., & Aznabakiyeva, M. M. (2010 April). Assessment of erosion activity of rivers in the Kazakhstani sector of the Mountain Altai using data on sediment loads. The Ministry of Education and Science of the Republic of Kazakhstan. The Al-Farabi Kazakh National University. In Materials of the International Scientific and Practical Conference “Current trends in development of geographical science in the Republic of Kazakhstan” (pp. 127-1370). Almaty.Djokic, D., & Zichuan, Y. (2011 April 10). DEM preprocessing for efficient watershed delineation. Esri.
Dzhanaleeva, K. M. (2010). Physical geography of the Republic of Kazakhstan (pp. 290-298). Astana. Geoinformation system Planet Explorer. (2017). Retrieved from https://www.planet.com
Geoinformation system Sentinel Hub. (2017). Retrieved from https://apps.sentinel-hub.com
Geological library GeoKniga. (2017). Retrieved from www.geokniga.org
Hydrological yearbooks of the rivers of the Ob and Irtysh basin. (1954–1999). Materials of the Fund of the East Kazakhstan Hydrometeorology Center.
Information Agency Kazakhstan Today. (2009). In the East Kazakhstan region as a result of floods, 22 houses, 60 households, 675 land plots and 675 household outbuildings were flooded – the Ministry of Emergency Situations of the Republic of Kazakhstan. Retrieved from https://www.kt.kz
Knizhnikov, Y. F., Kravtsova, V. I., & Tutubalina, O. V. (2014). Aerospace methods of geographic researches. Moscow: Academia.
Kondratiev, N. E., Popov, I. V., & Snischenko, B. F. (1982). Fundamentals of the hydromorphological theory of the channel process (272 p.). Leningrad: Hydrometeoizdat.
Kopaliani, Z. D., & Romashin, V. V. (1970). Problems of channel dynamics of mountain rivers. Proceedings of the State Hydrological Institute (183 ed.) (pp. 81-98). Leningrad: Hydrometeoizdat.
Makkaveev, N. I., & Chalov, R. S. (1986). Channel processes (263 p.). Moscow: MSU Press.
Mitrofanova, A. H., & Kalita, R. Sh. (2012 November). Assessment of risks of dangerous exogenetic processes in the shoreline of the Buktyrma reservoir and Lake Zhaisan (pp. 57-63). Series of geology and technical sciences 6 (440). News of the National academy of sciences of the Republic of Kazakhstan. Almaty, NAS RK.
National Library of the Republic of Kazakhstan. (2017). Retrieved from https://nlrk.kz/
Nurmagambetova, L. S., & Sosedov, I. S. (1965). Annual fluctuations in river discharges of Eastern Kazakhstan. Questions of Geography of Kazakhstan, 2, 141-150. Alma-Ata: Nauka (Science).
Savinykh, V. P., & Tsvetkov, V. Y. (2001). Geoinformation analysis of remote sensing data. Moscow: Kartgeotsenter – Geodezizdat.
Semenov, V. A. (1986). Surface water resources (216 p.). Hydrological study. Moscow: Hydrometeoizdat.
Shamov, G. I. (1959). River sediments (378 p.). Leningrad: Hydrometeoizdat.
Site of the United States Geological Survey. (2017). Retrieved from http://earthexplorer.usgs.gov/https://nlrk.kz/
Skladchikova, G. N. (1969). Sediment run-offs (pp. 176-196). Volume 15: USSR Surface Water Resources (1 ed.). Leningrad: Hydrometeoizdat.