Vorobyev A. Yu.

Flood Inundation of the Morphological Complexes  of the Oka River: Geographic Information Analysis  of the Inundated Areas P. 163 –171.

UDC 551.435.1(282.247.412):528.087.4

DOI 10.37724/RSU.2021.70.1.016

Abstract. The geographic information analysis of the flood inundation area of the Oka floodplain in the Ryazan region (742–662 km away from the estuary), which was performed in 2018, enabled the author of the article to assess the extent of inundated area within the Oka valley. The author investigated the areal extent of inundation of all the morphological complexes of the Oka. GIS-based modelling showed that the segmental-ridge floodplain meander belt was inundated to a greater extent than other local morphological complexes.

Keywords: the Oka river, floodplain, morphological complex, QGIS, inundation area, air photography, satellite imagery analysis.

References

1. Vorob’ev A. Ju., Kadyrov A. S. To the Issue of the Age of Alluvial Deposits in the Mid-stream of the Oka River. Geohronologija chetvertichnogo perioda: instrumental’nye metody datirovanija novejshih otlozhenij : tezisy doklada Vserossijskoj nauchnoj konferencii [Quaternary Geochronology: Instrumental Dating of Recent Sediments: Proceedings of an All-Russian Research Conference]. Moscow, Institute of Geography of the Russian Academy of Sciences Publ., 2019, p. 24. (In Russian).
2. Georgiadi A. G., Koronkevich N. I., Kashutina E. A., Barabanova E. A. Climatic and Anthropogenic Changes of the Streamflow in the Volga and the Danube. Fundamental’naja i prikladnaja klimatologija [Fundamental and Applied Climatology]. 2016, vol. 2, pp. 55–78. DOI 10.21513/2410-8758-2016-2-55-78. (In Russian).
3. Krivcov V. A., Vorob’ev A. Ju. The Peculiarities of the Spatial Organization and Formation of Local Morphological Complexes in the Oka Floodplain in the Ryazan Region. Vestnik Rjazanskogo gosudarstvennogo universiteta [Bulletin of Ryazan State University]. 2014, no. 1 (42), pp. 141–154.
   (In Russian).
4. Lihacheva Je. A., Timofeev D. A. The Analysis of Geomorphological Systems: Basic Concepts. Geomorfologija [Geomorphology]. 2008, no. 2, pp. 14–21. (In Russian).
5. Panin A. V., Sidorchuk A. Ju., Chernov A. V. Major Stages of Floodplain Formation of Lowland Rivers in Northern Eurasia. Geomorfologija [Geomorphology]. 2011, no. 3, pp. 20–31. (In Russian).
6. Savichev O. G. Gidrologija, meteorologija i klimatologija: gidrologicheskie raschety [Hydrology, Meteorology and Climatology: Hydrological Assessments]. Tomsk, Tomsk Polytechnic University Publ., 2013, 224 p. (In Russian).
7. Shancer E. V. Alljuvij ravninnyh rek umerennogo pojasa i ego znachenie dlja poznanija zakonomernostej stroenija i formirovanija alljuvial’nyh svit [Lowland River Sediments in Temperate Regions and their Significance for the Understanding of the Peculiarities and Formation of Alluvial Deposits]. Moscow, Institute of Geological Sciences of the Academy of Sciences of the Soviet Union Publ., 1951, iss. 135, 275 p. (In Russian).
8. Shik E. M., Artem’eva E. S., Izrailev V. M., Nikitin S. N., Kabanov Ju. N. Otchet Meshherskogo otrjada Kompleksnoj geologos#jomochnoj partii o geologicheskom doizuchenii jugo-vostochnoj chasti Moskovskoj sineklizy (listy N-37-XVI i N-37-XVII), provedennom v 1975–1978 godah (Rjazanskaja oblast’). Tom 1 [The Meshchera Geological Survey Crew Report of the Geological Investigation of South-eastern Parts of the Moscow Syneclise (pages N-37-XVI and N-37-XVII)]. 1975–1978. Ryazan Region]. Moscow, Geological Institute of the Russian Academy of Sciences Publ., 1979, inv. no. 1127, 378 p. (In Russian).
9. Kasprak A., Bransky N. D., Sankey J. B., Caster J., Sankey T. T. The Effects of Topographic Surveying Technique and Data Resolution on the Detection and Interpretation of Geomorphic Change. Geomorphology. 2019, vol. 333, pp. 1–15. DOI: 10.1016/j.geomorph.2019.02.020.
10. Lewin J., Ashworth P. J., Strick R. J. P. Spillage Sedimentation on Large River Floodplains. Earth Surface Processes and Landforms. 2017, vol. 42, pp. 290–305. DOI: 10.1002/esp.3996.
11. Miall A. Fluvial Depositional Systems. Geneva, Springer Geology Publ., 2014, 316 p. DOI: 10.1007/978-3-319-00666-6_7.