Россия
Россия
The main purpose of the research is to identify the presence of hazardous natural processes in the Belaya River basin. For this, field monitoring of hazardous processes was carried out according to the methodology developed and tested in the study of the Central Caucasus using technical means (GPS - survey of the study area and measurement of the characteristics of economic objects using a range finder). Based on the monitoring data, a digital cartographic visualization of the results was carried out, and an inventory of the flood and mudflow hazard of the river basin was compiled White. The monitoring results showed that the river basin. Belaya has an average degree of susceptibility to hazardous exogenous natural processes of various types - an average degree for mudflow processes, while the flood hazard can be an order of magnitude higher due to some natural and anthropogenic factors. Therefore, the annual geoecological monitoring of hazardous natural processes is necessary to assess the actual natural hazard of the region under study.
monitoring, hazardous natural processes, river basin, national economic objects, digital cartographic basis, cadastre
1. All rivers, Information site about the rivers of Russia, https://vsereki.ru/, accessed: 2019-11-15, 2019.
2. GIS-Lab, Processing of multispectral images, https://gis-lab.info/qa/multispec-sat.html, accessed: 2019-12-06, 2015.
3. Kondratyeva, N. V., A. K. Adzhiev, M. Y. Bekkiev, M. M. Gedueva, et al., Cadastre of mudflow hazard in the South of the European part of Russia, Nalchik: Printing House, p. 148, (in Russian), 2015.
4. Kuhl, E. V., and N. A. Borisova, Geoecological zoning of the territory of the Republic of Adygea and Krasnodar Territory according to the degree of susceptibility to hazardous natural processes, in Fundamental and applied aspects of geology, geophysics and geoecology using modern information technologies : V International scientific and practical conference, Republic of Adygeya, Maykop, May 20-24, 2019, pp. 263-292, Materials of the V International Scientific and Practical Conference, 2019.
5. Kyul, E. V., Geoecological monitoring of dangerous natural processes, International Journal of Ecology & Development, 35(2), 55-66, 2020.
6. Lurie, P. M., V. D. Panov, and T. Y. Yu., The Kuban River: Hydrography and Flow Regime, 500 pp., (SPb.: Gidrometeoizdat), (in Russian), 2005.
7. Razumov, V. V., V. V. Perekrest, N. P. Streshneva, et al., Cadastre of avalanche-mud flow danger of the North Caucasus, 112 pp., (SPb.: Gidrometeoizdat), (in Russian), 2001.
8. State water register, http://www.textual.ru/gvr/, accessed: 2019-11-15, 2019.
9. Water of Russia, Popular science encyclopedia, https://water-rf.ru/Water_objects/2150/White, accessed: 2019-11-15, 2019.
