Prielbrusye National Park Environmental Changes Due To Increasing Tourism Activity

Prielbrusye National Park is one of the most popular tourist destinations in Russia. In recent years internal tourism development, stimulated by restrictive measures (due to the COVID pandemic and geopolitical situation), resulted in significant growth of tourist flow to the national park’s territory. A surge in anthropogenic load on the park’s geosystems might degrade them and lead to environmental pollution. This research involved chemical studies of natural waters and snow from the south slope of the Elbrus and audit of the most popular tourist trails. The results have shown that in the snow alongside mountain hiking pistes to the Elbrus all the way up to 4,720 m above sea level (a.s.l.) oil stains concentration is up to 38 times higher than maximum acceptable concentration (MAC). Content analysis of heavy metals in snow cover on the Elbrus slopes and in the river Baksan has shown a significant rise in lead load over the period of 2015–2021 from the trace levels to 1.5 MAC, which is the result of increased anthropogenic load on the south slope of the Elbrus mountain. Ground observation of tourist trails has brought to light numerous patches of vegetation trampling, width extension and branching of the main trail, as well as campfire sites. The research results can be used as a rationale to take measures to reduce recreational load, to improve local geosystems’ condition and to develop a plan of action on nature conservation within the park’s territory.

1. Atabieva F.A., Cherednik E.A. (2020). Estimation of seasonal variability of the content of heavy metal compounds in river waters of the foothill zone of the Central Caucasus. Water industry of Russia: problems, technologies, management, 3, 68-81 (in Russian).

2. Chernyakov G.A., Vitelli V., Alexandrin M.Y., Grachev A.M., Mikhalenko V., Kozachek A.V., Solomina O.V., Matskovsky V.V. (2020). Dynamics of seasonal patterns in geochemical, isotopic, and meteorological records of the Elbrus region derived from functional data clustering. Geography, Environment, Sustainability, 13(3), 110-116, DOI: 10.24057/2071-9388-2019-180.

3. Chizhova Yu.N., Budantseva N.A., Vasilchuk Yu.K. (2017). Heavy metals in the glaciers of the Polar Urals and the Caucasus. Arctic and Antarctica, 1, 10-27 (in Russian with English summary).

4. Dreeva F.R., Reutova N.V., Reutova T.V., Khutuev A.M., Kerimov A.A. (2017). Exceeding environmental standards for the content of heavy metals in natural waters of the high-mountain zone of the Kabardino-Balkarian Republic. In: Sustainable Development: Problems, Concepts, Models, 132-134, Nalchik, Russia: Kabardino-Balkar Scientific Center of the Russian Academy of Sciences (in Russian).

5. Kerimov A.M., Kurasheva O.A. (2018). Comparative analysis of heavy metal concentrations in the sources of the Baksan river and the Garabashi glacier (the southern slope of Elbrus). Proceedings of the Dagestan State Pedagogical University. Natural and exact sciences, 1(12), 23-40 (in Russian).

6. Kozova M., Petrushina M., Paudisheva E., Khoroshev A. (2010). Landscape changes as a consequence of transformational processes in the model areas of the Tatra National Park (Slovakia) and the Prielbrusie State National Park (Russia). In: Landscape ecology – methods, applications and interdisciplinary approach. M. Barancokova, J. Krajci, J. Kollar, I. Belcakova (eds.). Bratislava, Slovakia: Institute of Landscape Ecology Slovak Academy of science, 319-339.

7. Mukha V.D., Glebova I.V., Gridasov D.S., & Kuznetsova T.V. (2012). The main sorption parameters of the distribution of cadmium ions in the soils of the Central Chernozem region. Bulletin of the Kursk State Agricultural Academy, 2(2), 87-90 (in Russian with English summary).

8. National Park “Prielbrusye” (2003). Nalchik, Russia: El-Fa, 169 p (in Russian).

9. Petrushina M.N. Landscapes of the Baksan river basin. Prirodopol’zovanie Prielbrus’ya. Moskva: Izd-vo MGU, 120-152. (In Russian)

10. Petrushina M.N. Current state of landscapes of Elbrus National Park. In: Current landscape-ecological state and problems of optimization of the natural environment of the regions. Proceedings of the XIII International Landscape Conference dedicated to the centenary of F.N. Milkov, Voronezh, 14-17 May 2018, Voronezh, Russia: Istoki, 1. 412-414 (in Russian).

11. Petrushina M.N., Chizhova V.P., Kozova M., Paudisheva E. (2010). Tourism Development in National Parks «Prielbrusye» and «Tatransky»: Comparative Analysis. In: Tourism and Recreation: Fundamental and Applied Research. Moscow, Russia, 591-597 (in Russian).

12. Reutova T.V., Dreeva F.R., Reutova N.V. (2014). Spatial distribution of concentrations of toxic heavy metals in river waters of the mountainous zone of the Kabardino-Balkarian Republic. Proceedings of the Kabardino-Balkarian Scientific Center of the Russian Academy of Sciences, 6, 99- 104 (in Russian).

13. Reutova T.V., Dreeva F.R., Reutova N.V. (2018). The content of impurities in the waters of the mountain rivers of the upper reaches of the Baksan (National Park «Prielbrusye») and its seasonal changes. Water resources, 1(45), 85-92 (in Russian).

14. Vasil’chuk Yu.K., Chizhova Yu.N., Frolova N.L., Budantseva N.A., Kireeva M.B., Oleynikov A.D., Tokarev I.V., Rets E.P., Vasil’chuk A.K. (2020). A variation of stable isotope composition of snow with altitude on the Elbrus Mountain, Central Caucasus. Geography, Environment, Sustainability, 13(1), 172-182, DOI: 10.24057/2071-9388-2018-22.

15. Vinokurov S.F., Gurbanov A.G., Bogatikov O.A., Sychkova V.A., Shevchenko A.V., Leksin A.B., & Dudarov, Z.I. (2016). Geochemical features of disposal of buried wastes of the Tyrnyauz tungsten-molybdenum plant by acid leaching. Doklady Academy of Sciences, (4)470, 445-447 (in Russian with English summary).