Вестник Пермского университета. Геология

Для урбанизированных территорий и месторождений строительного гипса охарактеризованы естественные (природные) и антропогенные факторы, приводящие к провалообразованию, и методы изучения карстовых процессов. Сравнительный анализ показал, что изучение карстовых процессов как на урбанизированных территориях, так и на месторождениях строительного гипса, схожи, но их сущность различна для оценки карстоопасности. Рассмотрена возможность применения результатов изучения карстовых процессов на урбанизированных территориях к месторождениям строительного гипса и наоборот. Приведены рекомендуемые карстологические исследования на всех этапах и стадиях геологоразведочных работ.

Anikeev A.V. 2017. Provaly i voronki osedaniya v karstvykh rayonakh: mekhanizmy obrazovaniya, prognoz i otsenka riska [Collapse hazards and sinkholes in karst areas: mechanisms of formation, forecast and risk assessment]. RUDN, Moskva, p. 328. (in Russian)

Banks V.J. et al. 2015. Media, sinkholes, and the UK National karst database. NCKRI Symposium 5. Proceedings of the 14th Multidisciplinary conference on Sinkholes and the Engineering and Environmental Impacts of Karst. National Cave and Karst Research Institute. Carlsbad, USA, pp. 223–230. doi: 10.5038/9780991000951.1033.

Berthelin R. Hartmann A. 2020. The shallow subsurface of karst systems: review and directions. Eurokarst 2018, Besançon. Advances in Karst Science. Springer, Cham. 61–68. doi:10.1007/978–3–030–14015–1_7.

Gvozdetsky N.A. 1972. Probemy izucheniya karsta i praktika [Problems in study of karst and practice]. Mysl, Moskva, p. 392. (in Russian)

Durnaeva V.N., Smirnov A.I. 2019. Metody vedeniya karstologicheskogo monitoringa na yuzhnom Urale i Predurale [Methods of karst monitoring conduction in South Urals and pre-Urals]. USATU, Ufa, pp. 255–264. (in Russian)

Ekzogennye geologicheskie opasnosti [Exogenous geological hazards]. 2002. Eds. Kutepov V.M., Sheko M. KRUK, Moskva, p. 348. (in Russian)

Kadebskaya O.I., Kadebsky Yu.V., Pyatunin M.S. 2001. Sozdaniye bazy dannykh inzhenerno-geologicheskoy informatsii i eyo znachenie dlya nuzhd goroda [Creation of database of engineering-geological information and its significance for city needs]. AQUA PRESS. Ekaterinburg. Vol. 2, pp. 767–772. (in Russian)

Kadebskaya O.I., Kadebsky Yu.V., Pyatunin M.S. 2001. Sozdanie kompyuternogo banka dannykh inzhenerno-geologicheskoy i karstologicheskoy informatsii v g. Kungure [Creation of e-data bank of engineering-geological and carstological information in Kungur city]. Geos. Moskva, pp. 367–369. (in Russian)

Kamalov V.G., Baryshnikov V.I., Chelpanov P.E. 2017. Analiz avariynykh sluchaev razrusheniya zdaniy i sooruzheniy na Ufimskom “poluostrove” [Analysis of buildings and constructions failures in Ufa’s «peninsula»]. Geomarketing Publ. Moscow, pp. 79–85. (in Russian)

Kataev V.N., Kadebskaya O.I. 2010. Geologiya i karst goroda Kungura [Geology and karst of Kungur city]. PGU, GI UrO RAN. Perm, p. 236. (in Russian)

Kataev V.N. 2012. Informatsyonnoe obespechenie karstomonitiringa [Information support of karst monitoring]. NNGASU. N. Novgorod, Vol. 1, pp. 153–155. (in Russian)

Kataev V.N. 2013. Osnovy sozdaniya sistemy monitoring zakarstovannykh territoriy (na primere Permskogo kraya) [Basics of monitoring system arrangement in karst-prone territories (on the example of Perm region)]. Geoekologiya. Inzhenernaya geologiya. Gidrogeologiya. Geokriologiya. 1:25–41. (in Russian)

Kataev V.N., Kovalea T.G. 2013. Rol ekspertnoy otsenki v karstologicheskom prognoze [Role of the expert estimation in the karst forecast]. Fundamentalnye issledovaniya. 8:1130–1135. (in Russian)

Kataev V.N., Scherbakov S.V., Zolotarev D.R., Likhaya O.M., Kovaleva T.G. 2009. Vliyanie geologicheskogo stroeniya territorii i prostranstvennoe raspredelenie karstovykh form (na primere territorii g. Kungur) [The impact of territorial geological structure and areal development of karst forms]. Vestnik Permskogo universiteta. Geologiya. 3:77–93. (in Russian)

Khotchenkov E.V., Batugin A.S. 2013. Metod gorno-ekologicheskogo monitoringa uchityvayushchego vliyanie geodinamicheski opasnykh zon (GOZ) na razvitie karstovykh protsessov [Method of mining and environmental monitoring taking into account the influence of the geodynamic hazard zones (GHZ) on the karst processes development]. Gornyy informatsionno-analiticheskiy byulleten. 5:8. (in Russian)

Khudenkikh K.O. 2021a. Metodicheskie osnovy provedeniya soprovozhdayushchey ekspluatatsionnoy razvedki na mestorozhdeniyakh gipsa (na primere Sokolino-Sarkaevskogo mestorozhdeniya) [Framework guideline for accompanying operational exploration in gypsum mines (a case study of the Sokolino-Sarkaevskoe deposit)]. Gornyy informatsionno-analiticheskiy byulleten. 1:90–101. (in Russian)

Khudenkikh K.O. 2019. Kharakteristika mestorozhdeniy gipsa Kungurskogo rayona Permskogo kraya [Description of gypsum deposits of Kungur district of the Perm kray]. PGNIU, Perm, pp. 318–325. (in Russian)

Khudenkikh K.O. 2018. Kharakteristika mestorozhdeniy gipsa Permskogo kraya [Characteristics of gypsum deposits of Perm kray]. Svoe Izdatelstvo, St. Petersburg, pp. 363–365. (in Russian)

Khudenkikh K.O. 2020. Metod postroeniya gipsometricheskikh planov krovli gipsa v predelakh vzryvnykh blokov [Method of generation the gypsum top hypsometric map within blasting blocks]. Vestnik Permskogo universiteta. Geologiya. 19(1):73–80. (in Russian) doi: 10.17072/psu.geol.19.1.73

Khudenkikh K.O. 2021b. Monitoring razvitiya karstovykh protsessov pri razrabotke mestorozhdeniy stroitelnogo gipsa [Monitoring of karst processes development during gypsum mining]. Izvestiya UGGU. 4(64):116–129. doi: 10.21440/2307–2091–2021–4–116–129. (in Russian)

Khudenkikh K.O. 2010. Otsenka plotnosti karstoproyavleniy i tekhnogennoy nagruzki na territoriyu g. Kungura [Assessment of karst forms density and technogenic load to the territory of Kungur city]. Kungur, pp. 100–108. (in Russian)

Khudenkikh K.O., Kataev V.N. 2021. Karst as dangerous engineering-geological process at field development of open-mining gypsum deposits. In: Conference Proceedings, Engineering and Mining Geophysics 2021, 021:1–10. doi: 10.3997/2214–4609.202152013.

Kim Y., Nam B., Zheng Q. 2020. An artificial neural network approach to sinkhole hazard assessment for East Central Florida. In: NCKRI Symposium 8. Proceedings of the 16th multidisciplinary conference on sinkholes and the engineering and environmental impacts of karst. Carlsbad, USA, pp. 145–154. doi: 10.5038/9781733375313.1031.

Kudryashov A.I., Fomin V.I., Kolesnikov V.P. 1999. Chanvinskoe mestorozhdenie izvestnyakov [Chanvinskoe limestone deposit]. Perm, p. 81. (in Russian)

Pan Z. et al. 2018. Review of monitoring and early warning technologies for cover-collapse sinkholes. In: NCKRI Symposium 7. Proceedings of the 15th Multidisciplinary conference on Sinkholes and the Engineering and Environmental Impacts of Karst. National Cave and Karst Research Institute. Carlsbad, USA, pp. 159–165. doi: 10.5038/9780991000982.1072.

Scherbakov S.V., Kataev V.N. 2011. Integralnaya otsenka karstoopasnosti urbanizirovannykh territoriy (na primere g. Kungura) [Integral assessment of karst hazards in urban territory (by the example of Kungur city). Uchen. zap. Kazan. univ. Ser. Estestv. nauki. 153(1):203–224. (in Russian)

Scherbakov S.V., Kataev V.N., Zolotarev D.R., Kovaleva T.G. 2018.Poverkhnostnye deformatsii v usloviyakh pokrytogo karsta: kompleksirovanie metodov otsenki morfometricheskikh parametrov v inzhenernykh tselyakh [Covered karst landforms: integration of methods of morphometric parameters estimation for engineering purposes]. Inzhenernaya geologiya. XIII(6):10–23. (in Russian) doi:10.25296/1993–5056–2018–13–6–10–23.

Shavrina E.V. 2015. Monitoring ekzogennykh geologicheskikh protsessov v sulfatnom karste [Monitoring of exogenous geological processes in sulfate karst]. PGNIU, Perm, pp. 134–138. (in Russian)

Taminskas J., Marcinkevicius V. 2002. Karst geoindicators of environment change: The case of Lithuania. Environmental Geology. 42:757–766. doi: 10.1007/s00254–002–0553–8.