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The water content of the rivers is formed by atmospheric precipitation and underground waters. Influence of underground waters on water content of the rivers cannot be measured. It is shown that the volume of underground water exchange is underestimated and can be commensurable with a volume of atmospheric precipitation. Change of level of underground waters is defined by changes of volume of the geological environment during geodeformations. It is offered to consider geodeformations as one of the reasons of floods and droughts. Studied the changes the gravitational field and geodeformations during droughts and floods in the Amazon in 2005-2006. Studied the hydrological regime of the River Nile. Shows the influence of geodeformation on the level of Danube and Dniester. Proposed detailed study the causes of floods in Europe in 2002. Influence of the Earth’s surface deformation on floods and droughts is very important and requires special detailed study. Changes in volume of rocks during Earth’s surface deformation are accompanied by dilatancy which influence on the amount of drought and flooding has turned out to be significant. Study of the processes considered in the thesis gives grounds to expect that floods and droughts associated with deformations of the geological environment will be successfully predicted.
Słowa kluczowe
Rocznik
Tom
Strony
3--7
Opis fizyczny
Bibliogr. 15 poz., wykr.
Twórcy
autor
- The Environmental Inspection of the Ministry of Environment of Ukraine, State Environmental Inspectorate Northwestern Black Sea region Head, 12 line 6 station Lustdorfska Road 22, 65114 Odessa, Ukraine
autor
- Odessa National Academy of Telecommunications, Kuznechnaya Street 1, 65029 Odessa, Ukraine
autor
- Odessa State Environmental University, Lvivskaya Street 15, 65016 Odessa, Ukraine
autor
- Odessa State Academy of Civil Engineering and Architecture, Didrihsona Street 4, 65029 Odessa, Ukraine
Bibliografia
- 1. Chen J.L., Wilson C.R., Tapley B.D., Yang Z.L., Niu G.Y., 2009, 2005 drought event in the Amazon River basin as measured by GRACE and estimated by climate models, Journal of Geophysical Research: Solid Earth, 114 (B5), 1-9, DOI:10.1029/2008JB006056
- 2. Kapochkin B.B., 1993, The disturbance of ecological balance in the hydrosphere as a sequence of tectonic process activation. Modelling and control, CAMSE Press, 3, 35-44
- 3. Kapochkina A.B., Kapochkin B.B., 2004, Changes in the environment before the Greek earthquake (14.08.03), [in:] Proceedings of the 5th International Symposium on Eastern Mediterranean Geology, A.A. Chatzipetros, S.B. Pavlides (eds.), Thessaloniki, Greece, 587-590, available at http://www.geo.auth.gr/5thISEMG/Documents/Presentation%20schedule.pdf (data access 1.10.2015)
- 4. Konkin V.V., Kapochkin B.B., Kucherenko N.V., 2004, Some aspects of the formation of flooding, taking into account the impact of hydrogeodynamic processes, Meteorologіya, klіmatologіya, gіdrologіya, 47, 276-283
- 5. Konkin V.V., Kucherenko N.V., Kapochkin B.B., Lisovodsky V.V., 2006, Drought in South America, an analysis of its causes, Preprint, EGU, Viena, 235-236
- 6. Marengo J.A., Nobre C.A, Tomasella J., Oyama M.D., de Oliveira G.S., de Oliveira R., Camargo H., Alves L.M., 2008, The drought of Amazonia in 2005, Journal of Climate, 21 (3), 495-516, DOI: 10.1175/2007JCLI1600.1
- 7. Mikhailov V.I., Kapochkina A.B., Kapochkin B.B., 2010, Interaction in system lithosphere-hydrosphere, Odessa: Astroprint Publisher, 153 p., available online at http://liber.onu. edu.ua/opacunicode/index.php?url=/notices/index/IdNotice:370194/Source:default (data access 1.10.2015)
- 8. Reissner U. von, 2002, Hochwasserkatastrophe in Europa, World Socialist Web Site, available at https://www.wsws.org/de/articles/2002/08/hoch-a21.html (data access 1.10.2015)
- 9. Rozengurt M.A., 1974, Hydrology and prospects for reconstruction of the natural resources of the Odessa estuaries, scientific thought, Academy of Sciences, USSR, 225 p., available at http://www.twirpx.com/file/718099/ (data access 1.10.2015)
- 10. Rudenko S., Schӧn N., Uhlemann M., Gendt G., 2013, Reprocessed height time series for GPS stations, Solid Earth, 4, 23-41, DOI: 10.5194/se-4-23-2013
- 11. Shilo N.A. 1989, Relationship level fluctuations of the Caspian Sea, with emphasis on the crust, Journal of the Academy of Sciences of the USSR, 83-90
- 12. Uchytel I.L., Dorofeev V.S., Yaroshenko V.N., Kapochkin B.B., 2008, Geodynamics. Fundamentals of dynamic geodesy, Odessa: Astroprint Publisher, 312 p., available at http://uchebilka.ru/geografiya/101480/index.html (data access 1.10.2015)
- 13. Vartanyan G.S., 1998, GGD-monitoring as a key technology of short-term and operational forecasting earthquakes, Preprint – experience of a comprehensive study of the geophysical fields for seismographic forecasting, Moscow, 10-12
- 14. Voitenko S.P., Uchytel I.L., Yaroshenko V.N., Kapochkin B.B., 2007, Geodynamics. Fundamentals of kinematic surveying, Odessa: Astroprint Publisher, 264 p.
- 15. Volosuhin V.A., Tkachenko J.J., 2013, Predicting the parameters of floods on the rivers of the Krasnodar Territory, Hydraulic Engineering, 4 (33), 16-20, available at http://hydroteh.ru/download/journal/archivearchive/G4%2833%292013.pdf (data access 1.10.2015)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-da5c6a71-48fb-4542-a5b4-825c36f60a10