In-stream Mining in Alluvial River Channels: Response, Consequences and Perspectives
- Authors: Berkovich K.M.1, Zlotina L.V.1, Turykin L.A.1
-
Affiliations:
- Moscow State Lomonosov’s University
- Issue: Vol 155, No 1 (2023)
- Pages: 13-20
- Section: Articles
- URL: https://journals.rcsi.science/0869-6071/article/view/232571
- DOI: https://doi.org/10.31857/S0869607123010032
- EDN: https://elibrary.ru/HCVANJ
- ID: 232571
Cite item
Full Text
Abstract
Abstract
—On the basis of long-term field and analytical research, the response of the channels of different rivers to one of the types of mechanical impact on rivers – the in-stream mining – is considered. The nature and rates of the response of the river channels of free-flowing and regulated rivers to the in-stream mining, disturbance extent of the channel morphology and the rivers hydrological regime are revealed. The purpose of the work is to assess the possibilities of in-stream mining and allowable mine’s sizes which bases on the general principles of the theory of fluvial processes, and to minimize the negative effects of given mechanical disturbances on rivers and floodplains
Keywords
About the authors
K. M. Berkovich
Moscow State Lomonosov’s University
Author for correspondence.
Email: berkovitch@yandex.ru
Russia, Moscow
L. V. Zlotina
Moscow State Lomonosov’s University
Author for correspondence.
Email: zleonora@yandex.ru
Russia, Moscow
L. A. Turykin
Moscow State Lomonosov’s University
Author for correspondence.
Email: filigorod@list.ru
Russia, Moscow
References
- Aldohin A.S., Chemagin A.A. Ekologicheskij risk razrabotki pezchanogo kar’era v rusle reki // Vodnye bioresursy i ich racionalnoe ispolzovanie. Vestnik AGTU. Rybnoe hoziajstvo. 2018. № 4. 7–14.
- Berkovich K.M., Zlotina L.V., Turykin L.A. Prirodno-orientirovannye pohody k dobyche alluvialnyh stroitelnyh materialov bz rechnyh rusel i poim // Vestnik Udmurtskogo universiteta. Biologia. Nauki o zemle. 2012. Vyp. 3. 3–13.
- Veksler A.B., Donenberg V.M. Pereformirovanie rusla v nizhnih b’efah krupnyh gidroelektrosnancyj. M.: Energoatomizdat. I983. I42–I65.
- Vershinin D.A. Tehnogennye vozdejstvia na vertikalnye deformacii rusla i gidravliku potoka (na primere r. Tomi). Avtoreferat diss. kand. geograf. nauk. Tomsk. 2005. 13.
- Gladkov G.L. Obespechenie ustojchivosti rusel sudochodnyh rek pri dnouglublenii I razrabotke ruslovyh kar’erov. Diss. … doktora technicheskih naur. Sankt-Peterburg. 1996. 310.
- Gladkov G.L. Teoreticheskie osnovy raschetnogo obosnovania putevych meroprijatij na sudochodnyh rekah // Zhurnal universiteta vodnyh kommunikacyj. Vyp. 2. 2013. 18–31.
- Grishanin K.V. Ustojchivost’ rusel rek i kanalov. L.: gidrometeoizdat. 1974. 144.
- Degtiarev V.V. Uluchshenie sudohodnyh uslovij sibirskih rek. M.: Transport. 1987. 170.
- Karasiov I.F. Ruslovye processy pri perebroske stoka. L.: gidrometeoizdat. 1975. 288.
- Makkaveev N.I. Ruslo reki i erozia v ee bassejne. M.: izd-vo AN SSSR. 1955. 355.
- Naumov G.G. Antropogennye vozdejstvia na ruslovye process na perehodah cherez vodotoki. M.: MADI, 2012. 105.
- Savichev O.G. Stok nanosov reki Tom’ (Zapadnaia Sibir’) // Izvestia Tomskogo politehnicheskogo universiteta. 2007. T. 310. № 3. 22–25.
- Snishchenko B.F., Meserlians G.G. Razvitie ruslovogo process ana uchastkah vyemok rechnogo alluvia // Dinamika reslovyh potokov. L.: LPI, 1987. 96–102.
- Galay V.J. Causes of river bed degradation // Water resources research. 1983. V. 19. № 5. P. 1057–1090.
- Kondolf G.M. Geomorphic and environmental effects of instream gravel mining. Landscape Urban Planning, 28. 1994. 225–243.
- Ponce V.M., Garcia J.L., Simons D.B. Modelling alluvial channel bed transients. Journal of the Hydraulic Division ASCE, Vol. 105. 1979.
- Rinaldi M., Wyz˙ga B., Surian N. Sediment mining in alluvial channels: physical effects and management perspectives // River Res. Applic. 2005. 21. Р. 805–828.