1. Home
  2. GeoTerrace
  3. All Submission
  4. ACHIEVEMENTS AND CHALLENGES IN STUDIES OF RIVER SYSTEMS AND THEIR CATCHMENT

ACHIEVEMENTS AND CHALLENGES IN STUDIES OF RIVER SYSTEMS AND THEIR CATCHMENT

Earth Surface Processes & Geodynamics

Authors

First and Last Name Academic degree E-mail Affiliation
Ivan Kovalchuk Sc.D. kovalchukip [at] ukr.net National University of Life and Environmental Sciences of Ukraine
Kyiv, Ukraine
Iryna Kovalchuk Ph.D. iryna.horyn [at] gmail.com Taras Shevchenko National University of Kyiv
Kyiv, Ukraine
Mykola Fedoniuk Ph.D. m.fedoniuk [at] lntu.edu.ua Lutsk National Technical University
Lutsk, Ukraine
Vitalii Martyniuk Ph.D. vitalii.martyniuk [at] rshu.edu.ua Rivne State University of Humanities
Rivne, Ukraine
Bohdan Zhdanyuk Ph.D. zdanyuk.bogdan [at] vnu.edu Lesya Ukrainka Volyn National University
Lutsk, Ukraine

I and my co-authors (if any) authorize the use of the Paper in accordance with the Creative Commons CC BY license

First published on this website: 13.08.2022 - 09:45
Abstract 

The paper provides a detailed overview of the main studies of river systems and their catchment basins. It outlines the primary approaches to the studies: hydrological, channel based, geomorphological, and catchment basin based approach. The evolution of the methods used in similar studies is described: from field hydrological and geological-geomorphological to graphic, cartographic, geoinformation modelling. It lists the main distinctive features of the most used classifications and typologies related to the structure of river systems, river valleys and catchments. Special attention is paid to the ecological and geomorphological aspects of the rivers and their basins studies, taking into account anthropogenic changes and the influence of the river system state on the environment. The paper summarises the main achievements in the studies of river systems and further lists the challenges related to the study of the state, dynamics, and the functioning of river basin systems from the standpoint of eco-geomorphology, applied geodynamics, rational nature management, and sustainable land development.

Keywords 
river systems
river-basins systems
review of geomorphological research
References 

Kovalchuk I.P. (1997). Regional ecological and geomorphological analysis. Lviv: Institute of Ukrainian Studies, 440 p. (In Ukrainian).
Gartsman, I. N., Kazansky, B. A., Korytny, L. M. (1976). Structural measure of river systems and its indicative properties (on the example of the systems of the South Minusinsk basin). Reports of the IGS, (49), 54-60.
Kovalchuk I.P. (2006). The main results and prospects of research on river systems and erosion-accumulative processes on the territory of Ukraine // Erosion-accumulative processes and river systems of developed regions: Coll. of sci. pap. of the III UA-PL-Ru seminar on the study of fluvial relief forms and processes in mountain, highland and lowland regions. Lviv: Ivan Franko LNU Publishing Center, 2006, 263 – 276.
Kovalchuk A.I., Kovalchuk I.P. (2018). Atlas mapping of river-basins system. Lviv: Prostir-M, 348 p.
Kostrikov S., Chervanyov I. (2010). Study of the self-organization of the fluvial relief: on the basis of the synergistic paradigm of modern natural science. Kharkiv.: KhNU named after VN Karazin, 144p.
Chervanyov, I. G., Kostrikov, S. V., Vorobyov, B. N. (2006). Fluvial geomorphosystems: research and development of the Kharkiv Geomorphological School. Kh.: Publishing House of the KhNU named after VN Karazin, 2006. 322 p.
Obodovskyi, O. G. (2001). Hydrological and ecological assessment of riverbed processes (on the example of rivers of Ukraine). Kyiv: Nika Center, 274.
Simonov, Yu. G., & Simonova, T. Yu. (1997). Structural analysis of the types of functioning and evolution of river basins. Hydrology and geomorphology of river systems. Irkutsk: Publishing House of the SO RAN, 13-23.
Chalov, R. S. (2008). Riverbed studies: theory, geography, practice: Riverbed processes: factors, mechanisms, forms of manifestation and conditions for the formation of river channels.. M.: LKI pub., 608p.
Yushchenko, Yu. S. (2005). Geohydromorphological patterns of channel development. Chernivtsi: Ruta, 320 p.
Kovalchuk A., Kovalchuk I., Pavlovska T. (2020). Transformation processes in the river-basin system of Bystrytsia and their geoinformation-cartographic models. Geodynamics, 2 (29), 33-50. DOI: https://doi.org/10.23939/jgd2020.02.033
Kovalchuk, I., Mykytchyn, O., & Kovalchuk, A. (2019). Geoinformation modeling of antropogenic transformation of the basin geosystems (case study of Dnister right tributaries). Visnyk of V. N. Karazin Kharkiv National University, Series «Geology. Geography. Ecology», (51), 124-139. https://doi.org/10.26565/2410-7360-2019-51-09
Kovalchuk I., Quast J., Mykhnovych A., Steidl J., Ehlert V. and Andreychuk Y. (2008). Concepts of the Sustainable Water Use end Flood Protection in the Upper Dnister Floodplain / Transformation processes in the Western Ukraine. Concepts for sustainable land use. Berlin, Weiβensee Verlag, P 431-440.
Grebin, V. V. (2010). Modern water regime of rivers of Ukraine (landscape and hydrological analysis). Kyiv: Nika Center, 316, 2.
Shevchuk, V., Burshtynska, K., Korolik, I., & Halochkin, M. (2021). Monitoring of horizontal displacements and changes of the riverine area of the Dniester River. Journal of Water and Land Development, 1-15.
Kovalchuk I. (2003). Hydrological and geomorphological processes in the Carpathian region of Ukraine. Proceedings of NTSH, 12, Ecology, 101-125.
O'Briain R. (2019). Climate change and European rivers: An eco‐hydromorphological perspective. Ecohydrology, e2099. https://doi.org/10.1002/eco.2099
Brzezińska-Wόjcik T., Gavrysiak L., Chabudziński L. (2010). Morphometric metods in geomorphological research of the Lublin Region. Landform Analysis, 12, 7-22.