2-19-20

УДК 35; 316

https://doi.org/10.21440/2307-2091-2019-2-159-165

T. A. Lebedeva/ News of the Ural State Mining University. 2019. Issue 2(54), pp. 159-165

Relevance of the work: The relevance of improving the methodology and principles of system monitoring of forested areas in industrial regions is to reflect more fully the social significance of the natural-resource potential of forest land, which undergoes a significant transformation during industrial development of the territory, including the development of subsoil resources.
The purpose of the study is to improve the methodology of system monitoring of forested areas in industrial regions of the Urals in accordance with the current situation of environmentally sustainable development of the territory. The system monitoring methodology is based on the concept of environmentally sustainable development of territories (biotic regulation of the environment), taking into account spatial and long-term effects, mathematical modeling of natural objects, phenomena, and processes, combining information collection and processing procedures with forecast and decision-making algorithms. Results and their application. The functions of system monitoring of forested areas are considered: monitoring of the state of forested areas fixes changes in the parameters of forest resources, environment-forming, and environmental functions; monitoring of use – monitoring of target and functional use, trends and dynamics of the use of natural resource potential; monitoring forecasting – the formation of models of natural objects, phenomena and processes. The main scientific and technological principles of system monitoring of forested areas in industrial regions are outlined: fixation and collection of indicators, their accumulation, and systematization, presentation of information in accordance with the characteristics of forested areas (classifier of such sites), forecasting changes in the parameters of forested areas in industrial regions. The possible types of reafforestation shifts of growing stock on forested areas in industrial regions are established.
The results of a comprehensive environmental and economic assessment are given according to the system monitoring of cover crop (forests) whithin the territory of the Sobstvenno-Kachkanarsky iron ore deposit, which ought to be radically transformed (clearance of growing stock).

Keywords: industrial regions, system monitoring, methodology, scientific and technological principles, natural objects, environmental functions, environmental and economic assessment.

This paper was prepared with the support and within the framework of the The Russian Foundation for Basic Research grant No 17-06-00433.

 

REFERENCES

  1. Vershinina E. Yu. Kuznetsova A. V. 2011, Environmental requirements for the organization of mining activities: Russian and international approaches. Izvestiya vysshikh uchebnykh zavedeniy. Gornyi zhurnal [News of the Higher Institutions. Mining Journal], no. 11, pp. 154–159. (In Russ.) 2. Ignat’eva M. N., Litvinova A. А. 2015, Ecologization of the social and economic approach to the development of natural resources. Izvestiya vysshikh uchebnykh zavedeniy. Gornyi zhurnal [News of the Higher Institutions. Mining Journal], no. 3, pp. 57–62. (In Russ.) 3. Antoninova N. Yu, Chaikina G. M., Rybnikova L. S., Shubina L. A., Feldman A. L. 2012, Geoecological problems of land and water use in the Ural fields. Izvestiya vysshikh uchebnykh zavedeniy. Gornyi zhurnal [News of the Higher Institutions. Mining Journal], no. 1, pp. 89–92. (In Russ.) 4. Dushin A. V., Pakhomov V. P. 2013, Perspektivy formirovaniya syr’yevoy bazy naukoyemkikh otrasley [Prospects for the formation of the resource base of high-tech industries]. Proceeding of the 14th research/practice conference. Khanty-Mansiysk, vol. 2, pp. 125–133. 5. Il’in S. A., Kovalenko V. S., Pastikhin D. V. 2013, Open pit mining in the Urals: present and future. Gornyi zhurnal [Mining journal], no. 2, pp. 95–100. (In Russ.) 6. Kornilkov S. V., Laptev Yu. B., Kantemirov V. D. 2013, The strategy for the development of mineral deposits of the Subpolar Urals. Izvestiya vysshikh uchebnykh zavedeniy. Gornyi zhurnal [News of the Higher Institutions. Mining Journal], no. 7, pp. 30–37. (In Russ.) 7. Zamolodchikov D. G. 2013, Anthropogenic and natural components of temperature dynamics in Russia. Ispol’zovaniye i okhrana prirodnykh resursov Rossii [Use and protection of natural resources of Russia], pp. 36–42. (In Russ.) 8. Shpolyanskaya N. A. 2013, Steadiness of permafrost to global climate change. Ispol’zovaniye i okhrana prirodnykh resursov Rossii [Use and protection of natural resources of Russia], no. 6, pp. 37–41. (In Russ.) 9. Quiggin J. 2010, Zombie Economics. How dead ideas walk among us. Princeton: Princeton University Press, 288 p. 10. Global Wealth 2017: The Year in Review. URL: https://w.w.w.creditsuisse.com/ corporate/en/research/research-institute/global-wealth-report.html 11. Isaev A. S. 2002, Monitoring biologicheskogo raznoobraziya lesov Rossii: metodologiya i metody.[ Monitoring of forest biological diversity in Russia: methodology and methods]. Moscow, 453 p. 12. Kaevitser V. I., Krapivin V. F., Potapov I. I. 2015, Cost-effective information-modeling technology for monitoring forest ecosystems and assessing their role in climate change. Ekonomika prirodopol’zovaniya [Economics of nature use], no. 4, pp. 57–61. (In Russ.) 13. Lebedeva T. А. 2016, Monitoring the transformation of forest land in the Middle Urals. IntyerekspoGyeo-Sibiria, collection of papers of XII international scientific conference. Novosibirsk, p. 176–181. 14. Kosolapov O. V., Ignatieva M. N. 2019, Environmentally sustainable subsoil use: concept, fundamental principles. Izvestiya vysshikh uchebnykh zavedeniy. Gornyi zhurnal [News of the Higher Institutions. Mining Journal], no. 2. pp. 79–89. (In Russ.) 15. 2002, The report of the United Nations on the environment and development, Rio de Janeiro, on June 3–14, 1992, vol. I, Resolutions adopted at the Conference. http://undocs.org/ru/A/CONF.15/26/REV.1(VOL.I) 16. The report at the world summit on sustainable development. Johannesburg, South Africa. URL: http://docs.cntd.ru/document/901893000 17. Gorshkov V. G. 1980, Structure of biospheric energy flows. Botanicheskii Zhurnal [Botanic journal], pp. 1579–1590. (In Russ.) 18. Vitousek P. M., Ehrlish P. R., Ehrlish A. E., Matson P. A. 1986, Human appropriation of the products of photosynthesis. BioScience, vol. 36, issue 6, pp. 368–373. https://doi.org/10.2307/1310258 19. Mayer H. 1981, The vertical distribution of the net radiation budget within a spruce forest in summer. Meteorology and Atmospheric Physics, vol. 29, no. 4, pp. 381–392. https://doi.org/10.1007/BF02263313 20. Sellers P. J. 1985, Canopy reflectance, photosynthesis and transpiration. Int. J. Remote Sens., no. 6, pp. 1335–1372. 21. Takanao A., Yasushi Y. 2006, Estimation of latent heat flux in forest areas by ASTER data. Proceedings of the Conference of the Remote Sensing Society of Japan, vol. 41, pp. 311–312.
  2. 22. Tunick A. 2006, A radiation and energy budget algorithm for forest canopies. Meteorology and Atmospheric Physics, vol. 91, no. 1-4, pp. 237–246. 23. Lebedeva T. А. Trubina L. К. 2017, Forest land models as basic blocks of geoinformation monitoring systems in land use. Vestnik SGUGiT [Bulletin of the Siberian State University of Geosystems and Technologies], vol. 22, no. 1. pp. 178–189. (In Russ.) 24. Lebedeva T. A., Kopylova Yu.Yu. Prediction and decision-making algorithms in system monitoring of forest lands. URL: https://www.atlantispress.com/proceedings/iscfec-18. 25. Kostin N. V., Ivanov V. F., Zhivotovsky V. V. 1991, Proizvoditel’nost’ yelovykh nasazhdeniy na avtotrofnykh pochvakh raznogo mekhanicheskogo sostava [Productivity of spruce plantations on autotrophic soils of different texture]. Theory of forest formation process. Krasnoyarsk, pp. 75–76. 26. Tyurin A. V., Naumenko N. M. Vorontsov P. V. 1956, Forest supplemental book. Moscow, 532 p. 27. Smolonogov E. P. 1996, Lesoobrazovatel’nyy protsess i problemy lesnoy tipologii [Forest formation process and problems of forest typology]. Forest formation process in the Urals and in the Trans-Urals. Ekaterinburg, pp. 4–25. 28. Galperin M. I., Nikolin A. А. Landscape taxation of forest-park plantations. Sverdlovsk, 136 p. 29. Kolesnikov B. P., Zubareva R. S., Smolonogov E. P. 1973, Forest formation conditions and types of forests of the Sverdlovsk region (practitioner guide). Sverdlovsk, 176 p. 30. Isayeva R. P. 2002, Ekologizatsiya sistem vedeniya lesnogo khozyaystva – osnova ratsional’nogo lesopol’zovaniya [Greening forest management systems is the basis for sustainable forest management]. Science and defense complex – the main resources of the Russian modernization. Ekaterinburg, pp. 508–510.

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