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To the study of environmental problems of the Mnevnikovskaya flood (Moscow) in the atlas information system using space images. Part 1

https://doi.org/10.18384/2712-7621-2022-4-32-47

Abstract

Aim.To study the environmental problems of the Mnevnikovskaya floodplain as a specially protected natural area in connection with the topical issue of housing, business, sports and recreational development and construction.

Methodology. Materials on construction and violation of the ecological situation and ultra-high resolution satellite images were analyzed, biogeographic observations on the ground were made.

Results. A few environmental problems have been identified: a large number of landfills, the failure of the Moskvoretsky Arboretum project, the withdrawal of near ¼ of the floodplain territory from protected areas in 2018, construction  sites with a height of 75 m on the main part of the floodplain, a threat to the existence of valuable natural complexes. The atlas information system of the Mnevnikovskaya floodplain was designed.

Research implications.Environmental violations and their consequences during the modern development of the floodplain were identified, the role of multi-temporal satellite images was determined, methodological approaches to the creation of an atlas information system were developed.

About the Authors

O. I. Markova
Lomonosov Moscow State University
Russian Federation

Olga I. Markova – Ph .D (Geography), Senior Researcher, Research Laboratory of Integrated Mapping, Faculty of Geography

 



L. G. Emelyanova
Lomonosov Moscow State University
Russian Federation

Lyudmila G. Emelyanova – Ph .D (Geography), Assoc . Prof ., Department of Biogeography,Faculty of Geography

 



References

1. Tikunov V. S., Chikharev I. A., Panin A. N., Rilsky I. A. [Atlas information system “Geopolitical situation in the Greater Mediterranean”: principles of creation and technology of spatial analysis]. In: Nauka. Innovatsii. Tekhnologii [Science. Innovation. Technology], 2019, no. 3, pp. 107–114.

2. Arzhanovsky E. V. [Analysis of environmental pollution from factories for the production of reinforced concrete products and structures]. In: Molodoy uchonyy [Young scientist], 2017, no. 22 (156), pp. 221−222.

3. Arkhipova O. E., Lychagina Yu. M. [Atlas information system of estimation of sustainable development of the coastal zone of the Azov Sea]. In: InterKarto. InterGIS [InterCarto. InterGIS], 2018, vol. 24, no. 1, pp. 68–74. DOI: 10.24057/2414-9179-2018-1-24-68-74.

4. Berezinsky A. R. Tekhnicheskiy otchot o stroitelstve kanala «Moskva-Volga» [Technical report on the construction of the «Moscow-Volga canal»]. Leningrad, Gosudarstvennoye Izdatelstvo Stroitelnoy Literatury Publ., 1940. 316 p.

5. Bityukova V. R., Mozgunov N. A., Gapizzhanuly G. [Assessment of environmental effects of road construction in Moscow: microgeographic analysis]. In: InterKarto. InterGIS [InterCarto. InterGIS], 2022, vol. 28, no. 1, pp. 115–128. DOI: 10.35595/2414-9179-2022-1-28-115-128

6. Bronovitskaya N. N. Pamyatniki arkhitektury Moskvy. Arkhitektura Moskvy 1933−1941 gg. [Architectural monuments of Moscow. Architecture of Moscow 1933−1941]. Moscow, Iskusstvo-XXI vek Publ., 2015. 320 p.

7. Klimanova O. A., Kolbovsky E. Yu. [Protected natural areas in the system of territorial planning and functional zoning of the city of Moscow]. In: Problemy regionalnoy ekologii [Problems of regional ecology], 2013, no. 2, pp. 177−180.

8. Lopatin P. Volga idot v Moskvu [Volga goes to Moscow]. Moscow, Moskovsky Rabochiy Publ., 1938. 220 p.

9. Markova O. I. [Principles of incorporating data about the environmental condition of natural-historical parks of metropolises in the atlas information system (on the example of the Moskvoretsky park)]. In: InterKarto. InterGIS [InterCarto. InterGIS], 2021, vol. 27, no. 3, pp. 387–408. DOI: 10.35595/2414-9179-2021-3-27-387-408.

10. Markova O. I., Emelyanova L. G. Prospects for creating the atlas information system to the SPNA territory of the metropolis by using crowdsourcing resources (on the example of Pokrovskoye-Streshnevo park). In: InterKarto. InterGIS [InterCarto. InterGIS], 2022, vol. 28, no. 1, pp. 696–711. DOI: 10.35595/2414-9179-2022-1-28-696-711.

11. Sopnev N. V., Belozerov V. S., Panin A. N. [Atlas information system “Regional capitals of Southern European Russia”]. In: InterKarto. InterGIS [InterCarto. InterGIS], 2022, vol. 28, no. 2, pp. 172–187. DOI: 10.35595/2414-9179-2022-2-28-172-187.

12. Cherkasov A. A. Atlas information system “Big Cities of Russia”: features of development and possibilities of application. In: InterKarto. InterGIS [InterCarto. InterGIS], 2021, vol. 27, no. 2, pp. 5–16. DOI: 10.35595/2414-9179-2021-2-27-5-16.

13. Chomaeva M. N. [Ecology of cement production]. In: Mezhdunarodnyy zhurnal gumanitarnykh i yestestvennykh nauk [International Journal of Humanities and Natural Sciences], 2019, vol. 2-1, pp. 8−10.

14. Yablokov V. M., Tikunov V. S. [Atlas information systems for sustainable development of territories]. In: InterKarto. InterGIS [InterCarto. InterGIS], 2016, vol. 1, pp. 13−33.

15. Ormeling F. Functionality of Electronic School Atlases. In: Seminar on Electronic Atlases II, ICA Proceedings on National and Regional Atlases. Prague, 1996, pp. 33−39.

16. Savini L., Tora S., Di Lorenzo A. A Web Geographic Information System to share data and explorative analysis tools. In: PLOS ONE, 2018, no. 13 (6). DOI: 10.1371/journal.pone.0196429.


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ISSN 2712-7613 (Print)
ISSN 2712-7621 (Online)