Geospatial potential and environmental changes : case study of complex nature of the Altai Geopark

• Autorzy: Kocheeva Nina A. , Iurkova Natalia A. , Sukhova Mariia G. , Redkin Aleksndr Germanovich , Zhuravleva Olga Valerevna

Identyfikatory

DOI

10.24425/jwld.2021.137687

• Języki publikacji: EN

Abstrakty

EN

The geopark Altai has a set of unique geological, geographical, and archaeological objects. Its basis is made by geological space with a specific relief that plays an important role, and on certain sites, it takes the first place in comparison with other types of objects. The peculiar feature of the geopark Altai is that in its territory there is a landscape connection among archaeological, geological, and geographical objects, which at certain sites is penetrated by mental and cultural fluids causing a deep interest of tourists in this territory. In this regard, the authors consider the relief as an object of cognitive, educational, and practical activities of the geopark Altai. Therefore, the following tasks were set up: to find a site for the realization of several types of activities by the geopark and to develop a theoretical scientific and a popular science base for their implementation. As a result of the work done, the authors allocated the site within the boundaries of the geopark Altai where modern dynamics of the relief are characterized by the maximum speed. On this site, it is possible to recreate the processes that created the relief in the geological past and to study these processes now. The specifics of weather and climatic conditions in this region made its relief very important for economic activity of the population inhabiting this territory. Therefore, as of today, the study of the condition of certain surface sites and forecasting the development of relief-forming processes is an important part of any activity on the described territory. The long-term geological, ecological, geographical, and archaeological research conducted by the authors on the territory of the Altai Republic served as materials for this study. The geological materials were collected by the methods adopted in this field of research (field survey of structures and rocks, cartographic methods, analysis of general geological data, and others). The ecological and geographical results were obtained using geochemical, hydrochemical, analytical, and others.

Słowa kluczowe

EN

Altai; environmental changes; geological objects; geopark; geotourism; rural development

• Wydawca: Wydawnictwo ITP
• Czasopismo: Journal of Water and Land Development
• Rocznik: 2021
• Tom: no. 49
• Strony: 273--281
• Opis fizyczny: Bibliogr. 34 poz., fot., rys.

Twórcy

autor

Kocheeva Nina A.

• Gorno-Altaisk State University, Faculty of Natural Sciences and Geography, Department of Geography and Environmental Management, 1 Lenkin Street, Gorno-Altaisk, 649000, Altai Republic, Russia

autor

Iurkova Natalia A.

• Gorno-Altaisk State University, Faculty of Natural Sciences and Geography, Department of Geography and Environmental Management, 1 Lenkin Street, Gorno-Altaisk, 649000, Altai Republic, Russia

autor

Sukhova Mariia G.

• Gorno-Altaisk State University, Faculty of Natural Sciences and Geography, Department of Geography and Environmental Management, 1 Lenkin Street, Gorno-Altaisk, 649000, Altai Republic, Russia

autor

Redkin Aleksndr Germanovich

• Altai State University, Department of Recreational Geography, Tourism and Regional Marketing, Barnaul, Russia

autor

Zhuravleva Olga Valerevna

• Gorno-Altaisk State University, Faculty of Natural Sciences and Geography, Department of Geography and Environmental Management, 1 Lenkin Street, Gorno-Altaisk, 649000, Altai Republic, Russia

Bibliografia

• ADLARD B., DONALDSON S.G., ODLAND J.O., WEIHE P., BERNER J., CARLSEN A., ÓLAFSDÓTTIR K. 2018. Future directions for monitoring and human health research for the Arctic Monitoring and Assessment Programme. Global Health Action. Vol. 11. No. 1, 1480084. DOI 10.1080/16549716.2018. 1480084.
• AGADZHANYAN N.A., ALEKSANDROV S.I., APTIKAEVA O.I., GLAVATSKIKH S.P., GRACHEV V.A., DMITRIEVA T.B., RASTORGUEV V.N. 2006. Ekologiya cheloveka v menyayushchemsya mire [Human ecology in a changing world]. Ekaterinburg. UrO RAN. ISBN 5-7691-1621-8 pp. 569.
• ALEKSANDROVA T.N., NIKOLAEVA N.V., LVOV V.V., ROMASHEV A.O. 2019. Povysheniye effektivnosti pererabotki rud blagorodnykh metallov na osnove modelirovaniya tekhnologicheskikh protsessov [Ore processing efficiency improvements for precious metals based on process simulations]. Obogashchenie Rud. No. 2 p. 8–13. DOI 10.17580/or.2019.02.02.
• BAUMFLEK M., DEGLORIA S., KASSAM K.A. 2015. Habitat modeling for health sovereignty: increasing indigenous access to medicinal plants in northern Maine, USA. Applied Geography. No. 56 p. 83–94. DOI 10.1016/j.apgeog.2014.10.012.
• BOYKO N.A., CHVILEVA T.A., ROMASHEVA N.V. 2019. Vliyaniye deyatel'nosti ugol'nykh kompaniy na sotsial'no-ekonomicheskoye razvitiye ugledobyvayushchikh regionov i yeye otsenka [The impact of coal companies on the socio-economic development of coal mining regions and its assessment]. Ugol. No. 11 p. 48–53. DOI 10.18796/0041-5790-2019-11-48-53.
• BLOMDIN R., HEYMAN J., STROEVEN A. P., HÄTTESTRAND C., HARBOR J. M., GRIBENSKI N., RUDOY A. N. 2016. Glacial geomorphology of the Altai and Western Sayan Mountains, Central Asia. Journal of Maps. Vol. 12. Iss. 1 p. 123–136. DOI 10.1080/17445647.2014.992177.
• BUSLOV M.M., GENG H., TRAVIN A.V., OTGONBAATAR D., KULIKOVA A.V., MING C., TROFIMOVA D.A. 2013. Tektonika i geodinamika Gornogo Altaiya i sopredelnykh struktur Altae-Sayanskoy skladchatoy oblasti [Tectonics and geodynamics of Gorny Altai and adjacent structures of the Altai-Sayan folded area]. Geologiya i geofizika. Vol. 54. No. 10 p. 1600–1627.
• BUTVILOVSKII V.V. 1993. Paleogeografiya poslednego oledeneniya i golotsena Altaya: Sobytiyno-katastroficheskaya model [Paleogeography of the Last Glaciation and Holocene in Altai: An event-catastrophic model]. Tomsk. Izd. Tomsk. Gos. Univ. ISBN 5-7511-0632-6 pp. 253.
• CHASHCHIN V.P., GUDKOV A.B., POPOVA O.N., ODLAND JU.O., KOVSHOV A.A. 2014. Kharakteristika osnovnykh faktorov riska narusheniy zdorovia naseleniya, prozhivayushchego na territoriyakh aktivnogo prirodopolzovaniya v Arktike [Description of main health deterioration risk factors for population living on territories of active natural management in the Arctic]. Ekologiya cheloveka. Vol. 1 p. 3–12. DOI 10.33396/1728-0869-2014-1-3-12.
• CHIKHACHEV P.A. 1967. A trip across the Pampas of Buenos Aires (1836–1837). University of Kansas, Center of Latin American Studies pp. 63.
• DEL BEN A., BARNABA C., TABOGA A. 2008. Strike-slip systems as the main tectonic features in the Plio-Quaternary kinematics of the Calabrian Arc. Marine Geophysical Researches. Vol. 29. No. 1 p. 1–12. DOI 10.1007/s11001-007-9041-6.
• DE SAINT PIERRE M. 2017. Antiquity of mtDNA lineage D1g from the southern cone of South America supports pre-Clovis migration. Quaternary International. Vol. 444 p. 19–25. DOI 10.1016/j.quaint.2017.05.054.
• DIRIN D. A., FRYER P. 2020. The Sayan borderlands: Tuva’s ethnocultural landscapes in changing natural and sociocultural environments. Geography, Environment, Sustainability. Vol. 13. No. 1 p. 29–36. DOI 10.24057/2071-9388-2019-76.
• DOWLING R. 2018. Geotourism and geoparks. In: Handbook of geotourism. Pert. Edward Elgar Publishing p. 59–79.
• ERNST R., VRUBLEVSKII V. V., TISHIN P. (eds.). 2020. Geological tour of Devonian and Ordovician magmatism of Kuznetsk Alatau and Minusinsk Basin: Altay-Sayan Region, Siberia. Springer Nature. ISBN 978-3-030-29559-2 pp. 232.
• FEDAK S.I., TURKIN Y.A., GUSEV A.I., SHOKALSKY S.P., RUSANOV G.G., BORISOV B.A., LEONTYEVA E.M. 2011. Gosudarstvennaya geologicheskaya karta Rossiyskoy Federatsii. Masshtab 1:1 000 000 (tretie pokolenie). Seriya Altae-Sayanskaya. List М-45 (Gorno-Altaisk). Obyasnitelnaya zapiska. [State geological map of the Russian Federation. Scale 1:1 000 000 (third generation). Altai-Sayan series. Sheet M-45 (Gorno-Altaisk). Explanatory note]. Sankt-Petersburg: VSEGEI pp. 567.
• GOLUBCHIKOV Y. N., KRUZHALIN V. I., NIKANOROVA A. D. 2019. Arctic tourism: State and prospects for Russia. Geography, Environment, Sustainability. Vol. 11. No. 4 p. 5–13. DOI 10.24057/2071-9388-2018-11-4-05-13.
• HENRIQUES M.H., BRILHA J.B. 2017. UNESCO Global Geoparks: A strategy towards global understanding and sustainability. Episodes. Vol. 40. No. 4 p. 349–355. DOI 10.18814/epiiugs/2017/v40i4/017036.
• HOSE T. A. 2012. 3G’s for modern geotourism. Geoheritage. Vol. 4. No. 1–2 p. 7–24. DOI 10.1007/s12371-011-0052-y.
• HWANG J.T. 2015. A study of state-nature relations in a developmental state: The water resource policy of the Park Jung-Hee regime, 1961–79. Environment and Planning A: Economy and Space. Vol. 47. Iss. 9 p. 1926–1943. DOI 10.1177/ 0308518X15594922.
• IGUMNOVA E.M., TIMCHENKO I.E. 2003. Modelirovaniye protsessov adaptatsii v ekosistemakh [Modeling of the processes of adaptation in ecosystems]. Morskoy Gidrofizicheskiy Zhurnal. Vol. 1 p. 46–57.
• JUSTICE S.C. 2018. UNESCO global geoparks, geotourism and communication of the Earth sciences: A case study in the Chablais UNESCO Global Geopark, France. Geosciences. Vol. 8(5), 149. DOI 10.3390/geosciences8050149.
• KAZNACHEYEV V.P. (ed.) 1980. Mekhanizmy adaptatsii cheloveka v usloviyakh vysokikh shirot [Mechanisms of human adaptation in the conditions of high latitudes]. Moscow. Meditsina pp. 200.
• KOMOO I., PATZAK M. 2008. Global geoparks network: An integrated approach for heritage conservation and sustainable use. In: Geoheritage of East and Southeast Asia. Eds. M.S. Leman, A. Reedman, C.S. Pei. Bangi. Lestari p. 3–13.
• LAWAL-ADEBOWALE O.A. 2019. Geospatial and socioeconomic traits encumbering tractorisation of farmland among crop farmers in Ogun State, Nigeria. Journal of Water and Land Development. No. 43 p. 96–105. DOI 10.2478/jwld-2019-0067.
• MALAREV V., BOGDANOV I., SENCHILO N. 2020. Algorithm for automatic compensation of voltage dips in power supply of industrial facilities. Journal of Applied Engineering Science. Vol. 18(2) p. 173–180. DOI 10.5937/jaes18-26361.
• MENSAH C. 2017. The United Nations Commission on Sustainable Development. In: Greening international institutions. Routledge p. 21–37.
• MOVCHAN I.B., YAKOVLEVA A.A., DANILIEV S.M. 2019. Parametric decoding and approximated estimations in engineering geophysics with the localization of seismic risk zones on the example of northern part of Kola Peninsula. In: Engineering and Mining Geophysics 2019 15th Conference and Exhibition. No. 1. European Association of Geoscientists and Engineers p. 1–11. DOI 10.3997/2214-4609.201901705.
• MOVCHAN I.B., YAKOVLEVA A.A. 2017. Experience of qualitative and quantitative interpretation of nonpotential geofields with surface and deep morphostructural reconstructions on the example of Unica ore province (Kareljya, Russia). International Journal of Mechanical Engineering and Technology. Vol. 8(12) p. 926–932.
• NOVIKOV I.S., MISTRUKOV A., VYSOTSKY E., AGATOVA A. 1998. Morphotectonics of the Altai Mountains. In: Active tectonic continental basins. Interaction between structural and sedimentary processes. International Conference organised at the occasion of the end of INTAS Project 134. 30.04–02.05.1998 Cent, Belgium.
• ÓLAFSDÓTTIR R., DOWLING R. 2014. Geotourism and geoparks – A tool for geoconservation and rural development in vulnerable environments: A case study from Iceland. Geoheritage. Vol. 6. No. 1 p. 71–87. DOI 10.1007/s12371-013-0095-3.
• ROLDUGIN V.V., KATS V.Y., KOCHEEVA N.A., BOLBUH T.V. 2019. Groundwater level dynamics in the territory of the Altai Republic. Asia Life Sciences. No. 2. Suppl. 21 p. 927–941.
• SEMENOV YU.M., BABIN V.G., KOCHEEVA N.A., SHITOV A.V., ZHURAVLEVA O.V., MINAEV A.I., SUKHOVA M.G. 2003. Ekologichesky orientirovannoe planirovanie zemlepolzovaniya v Altaiskom regione. Kosh-Agachskiy raion [Ecologically oriented land use planning in the Altai Region. Kosh-Agach district]. Novosibirsk. Geo Acad. Press. ISBN 978-5-906284-23-5 pp. 131.
• YEMELYANOV V.A., YEMELYANOVA N.Y., SHVED E.V., NEDELKIN A.A., FATKULIN A.R. 2020. Modeling of the multilayer perceptrons for image recognition of the steel microstructures. In: 2020 IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering, EIConRus 2020 p. 952–955. DOI 10.1109/EIConRus49466.2020.9038971.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2021).