BECZEK M., RYŻAK M., SOCHAN A., MAZUR R., POLAKOWSKI C., HESS D., BIEGANOWSKI A. 2020. Methodological aspects of using high-speed cameras to quantify soil splash phenomenon. Geoderma. Vol. 378, 14592. DOI
10.1016/j.geoderma.2020.114592.
CHAUDHRY M.H. 2008. Open-channel flow. 2nd ed. Springer Science + Business Media, LLC, New York, USA. ISBN 978-0-387-30174-7 pp. 523.
CHOW V.T. 1959. Open channel hydraulics. McGraw Hill. ISBN 07-010776-9 pp. 702.
DEY S. 2014. Fluvial hydrodynamics. Ser. GeoPlanet: Earth and Planetary Sciences. Berlin, Germany. Springer-Verl. ISBN 978- 3642190612 pp. 719.
ETTEMA R. 2000. Hydraulic modeling. Concepts and practices. ASCE Manuals and Reports on Engineering Practice. No. 97. ISBN 978- 0784404157 pp. 390.
HADDAD S., BOUHADEF M. 2019. Contribution à l’étude du phénomène de transport des sédiments par érosion des sols [Contribution to the study of the phenomenon of sediment transport by soil erosion] [online]. PhD Thesis. Algiers, Algeria.
USTHB pp. 136. [Access 10.02.2021]. Available at:
http://repository.usthb.dz//xmlui/handle/123456789/8210 HADDAD S., BOUHADEF M. 2018. Contribution to runoff erosion of earthen channels. Polish Journal of Soil Science. Vol. 51. No. 2 p. 313–325. DOI
10.17951/pjss.2018.51.2.313.
HENDERSON F.M. 1966. Open channel flow. New York, USA. MacMillan Company. ISBN 978-0023535109 pp. 522.
KRAATZ D.B. 1977. Irrigation channel lining. FAO. Italy. ISBN 9251001650 pp. 199.
LANE E.W. 1953. Progress report on studies on the design of stable channels. Bureau of Reclamation. Proceedings. No. 79. New York, USA. ASIN B0007I585M pp. 31.
LANE E.W. 1955. Design of stable alluvial channels. Transactions of the American Society of Civil Engineers. Vol. 120. Iss. 1 p. 1234– 1260.
MASSÉ P. 1938. Ressaut et ligne d’eau dans les cours d’eau à pente variable [Hydraulic jump and flow profile in channels of variable slope]. Revue Générale de l’Hydraulique. Vol. 4. No. 19 p. 7–11.
POINCARÉ H. 1881. Mémoires sur les courbes définies par une équation différentielle [Memoir on the curves defined by a differential equation] [online]. Journal de Mathématiques Pures et Appli-quées. Ser. 3. Vol. 7 p. 375–422. [Access 10.02.2021]. Available at:
http://sites.mathdoc.fr/JMPA/PDF/JMPA_1881_3_7_A20_0.pdf PUGH C.A. 1985. Hydraulic model studies of fuse plug embankments [online]. Denver, CO. Bureau of Reclamation, Engineering and Research Center. Report No. REC-ERC-85-7 pp. 33. [Access 20.02.2021]. Available at:
https://www.usbr.gov/tsc/techrefer-ences/rec/REC-ERC-85-7.pdf SMERDON E.T, BEASLEY R.P. 1959. The tractive force theory applied to stability of open channels in cohesive soils [online]. Columbia, MO. University of Missouri, Missouri. USA. Agricultural Experiment Station. Research Bulletin. No. 715 pp. 36. [Access 20.02.2021]. Available at:
https://mospace.umsystem.edu/xmlui/ handle/10355/58141 TROUT T.J., NEIBLING W.H. 1993. Erosion and sedimentation processes on irrigated fields. Journal of Irrigation and Drainage Engineer-ing. Vol. 119. No. 6. DOI
10.1061/(ASCE)0733-9437(1993)119:6(947).
YALIN M.S. 1971. Theory of hydraulic models. London. Macmillan Civil Engineering Hydraulics. The Macmillan Press LTD, USA. ISBN 978-0408004824 pp. 266.