Bulletin of Perm University. Geology

The paper deals with the issues of remote monitoring of karst, erosion, and flooding processes in the area of linear construction design using remote sensing data, in particular, the high-resolution space and multispectral Sentinel-2 images. The use of multi-temporal high-resolution space images makes it possible to assess the dynamics of surface karst development and to monitor the development of flooding zones. Calculation of spectral indices for the purpose of raster image binarization and selection of water objects masks allows to automate the selection of flooding zones and to estimate their sizes. Instrumental analysis of digital elevation model by means of geographic information systems (GIS) is an accessible and effective method for assessing the intensity of the erosion process, allowing clarifying the zoning of the territory with regard to karst hazard. Complex analysis of hydrological, geomorphological and geological conditions using remote sensing data and GIS tools is informative for studying engineering and geological processes in the areas of their development.

Antipov V.S., Volin, K.A., Zhuravlev E.A. 2016. Vyyavlenie karstovykh i suffozionno-karstovykh obyektov po materialam kosmicheskikh syomok v

tsentralnoy chasti Vostochno-Evropeyskoy platformy [Identification of karst and karst-suffosion features on satellite imagery in the central part of East European platform]. Vestnik of St Petersburg University. Series 7. Geology. Geography. 4:4–16. (in Russian) doi:10.21638/11701/spbu07.2016.401

Bezgodova O.V., Istomina E.A., Ovchinnikova E.V. 2018. Otsenka i kartografirovanie opasnykh ekzogennykh protsessov Mondinskoy kotloviny na osnove morfometricheskogo landshaftnogo analiza [Assessment of Hazardous Exogenous Processes of the Mondy Depression Based on Morphometric and Landscape Analysis. Geodesy and cartography. 79(8):28-37. (in Russian) doi: 10.22389/0016-7126-2018-938-8-28-37

Gagarin L.A., Baishev N.E., Melnikov A.E., Nikolaeva E.S. 2024. Primenenie radiolokatsionnykh kosmosnimkov Sentinel-1 pri kartirovanii naledey Chulmanskogo plato i otsenka zakonomernostey ikh rasprostraneniya [Using the synthetic aperture radar Sentinel-1 data for icing mapping of the Chulmanskoe Plateau and its distribution characterization. In: Arctic and Subarctic Natural Resources, 29(1):80–95. (in Russian) doi: 10.31242/2618-9712-2024-29-1-80-95.

Dolgopolov D.V., Baborykin M.Yu., Zhidilyaeva E.V., Melkiy V.A. 2022. Primenenie tekhnologii vozdushnogo lazernogo skanirovaniya pri provedenii geotekhnicheskogo monitoringa na truboprovodnom transporte [Application of air laser scanning technology in geotechnical monitoring of

pipeline transport]. Monitoring. Nauka i tekhnologii. 2(52):25-34. (in Russian) doi: 10.25714/MNT.2022.52.003

Drobinina E.V., Kitaeva M.A., Romanova E.R., Ermolovich I.G. 2024. K voprosu optimizatsii prinyatiya proektykh resheniy na zakarstovannykh territoriyakh s ispolzovaniem distantsionnogo zondirovaniya i GIS [On the issue of optimizing the adoption of design schemas in karst areas using remote sensing and GIS]. Sovremennye problemy distantsionnogo zondirovaniya Zemli iz kosmosa, 21(5):149-157. (in Russian) doi:10.21046/2070-7401-2024-21-5-149-157

Drobinina E.V., Kitaeva M.A. 2024. Izuchenie ingenerno-geologicheskikh protsessov na zakarstovannykh nerritoriyakh s primrneniem dannykh distantsionnogo zondirovaniya Zemli [Study of engineering-geological processes in karst territories using remote sensing data]. In: Karst and Caves. Collection of scientific works. Materials of the AllRussian scientific and practical conference. 28 May - 1 June 2024. Perm, pp. 64-70. (in Russian)

Drobinina E.V. 2024. Metody distantsionnogo monitoring opasnykh inzhenerno-geologicheskikh protsessov [Methods of remote monitoring of dangerous engineering-geological processes]. In: Geology and minerals of the Western Urals [Electronic resource]. Perm. 7(44):139-144. (in Russian)

Knizhnikov Yu.F., Kravtsova V.I., Tutubalina O.V. 2011. Aerokosmicheskie metody geograficheskikh issledovaniy [Aerospace methods of geographical research]. Moskva, p. 416. (in Russian)

Polyakova E.V., Kutinov Yu.G., Mineev A.L., Chistova Z.B. 2018. Primenenie globalnoy tsifrovoy modeli relyefa ASTER GDEM v.2 dlya vydeleniya rayonov vozmozhnoy aktivizatsii karstovykh ptotsessov na territorii Arkhangelskoy oblasti [Geoecological assessment of the probability of activation of karst processes based on digital relief modeling]. In: Analysis, forecast and management of natural risks taking into account global climate change Georisk-2018. Proc. 10th Intern. Scientific-Practical Conf. Moscow. pp. 221–225 (in Russian).

Polyakova E.V., Kutinov Y.G., Mineev A.L., Chistova Z.B., Belenovich T.Ya. 2021. Primenenie globalnoy tsifrovoy modeli relyefa ASTER GDEM v.2 dlya vydeleniya rayonov vozmozhnoy aktivizatsii karstovykh protsessov na territorii Arkhangelskoy oblasti (Rossiya) [Using the ASTER GDEM v.2 Global Digital Elevation Model to Identify Areas of Possible Activation of Karst Processes in the Arkhangelsk Region (Russia)]. In: Uchenye Zapiski Kazanskogo Universiteta. Seriya Estestvennye Nauki. 163(2):302-319. (in Russian). doi:10.26907/2542-064X.2021.2.302-319.

de Carvalho Jr. O.A., Guimaraes R.F., Montgomery D.R., Gillespie A.R., Gomes R.A. T., Martins E.d.S., Silva N.C. 2014. Karst depression detection using ASTER, ALOS/PRISM and SRTM-derived digital elevation models in the Bambui Group, Brazil. Remote Sensing. 6(1):330–351. doi:10.3390/rs6010330.

Leone G., Catani V., Pagnozzi M., Ginolfi M., Testa G., Esposito L., Fiorillo F. 2022. Hydrological features of Matese Karst Massif, focused on endorheic areas, dolines and hydroelectric exploitation. J. Maps. 19(1):1– 13. doi:10.1080/17445647.2022.2144497