Hostname: page-component-cd9895bd7-gxg78 Total loading time: 0 Render date: 2024-12-18T18:35:12.907Z Has data issue: false hasContentIssue false
  • English
  • Français

Bend theory of river meanders. Part 1. Linear development

Published online by Cambridge University Press:  20 April 2006

Syunsuke Ikeda ,
Gary Parker  and
Kenji Sawai
Syunsuke Ikeda
Affiliation:
Department of Foundation Engineering, Saitama University, Saitama, Japan
Gary Parker
Affiliation:
St Anthony Falls Hydraulic Laboratory, University of Minnesota, Minneapolis, Minnesota, 55414, USA
Kenji Sawai
Affiliation:
Disaster Prevention Research Institute, Kyoto University, Uji, Japan
Get access Rights & Permissions [Opens in a new window]

Abstract

Instability of the alternate-bar type in straight channels has long been identified as the cause of fluvial meandering. The condition of inerodible sidewalls, however, does not allow a meandering channel to develop. Herein a stability analysis of a sinuous channel with erodible banks allows for delineation of a ‘bend’ instability that does not occur in straight channels, and differs from the alternate-bar instability.

In the case of alluvial meanders, the two mechanisms are shown to operate at similar characteristic wavelengths. This provides a rationale for the continuous evolution of alternate bars into true bends such that each bend contains one alternate bar.

The same bend instability applies to incised meanders. A mechanism for incised alternate bars which differs from that for the alluvial case appears to operate at different characteristic wavelengths than that of bend instability. Analysis of data suggests that meandering in supraglacial meltwater streams is primarily due to the alternate bar mechanism, whereas the meandering of rills incised in cohesive material and of caves is likely due to the bend mechanism.

The meander wavelength of incised reaches of meandering streams is often longer than that of adjacent alluvial reaches. An explanation is offered in terms of bend instability.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 112 , November 1981 , pp. 363 - 377
Copyright
© 1981 Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adachi, S. 1967 A theory of stability of streams. Proc. 12th Congr. IAHR, vol. 1, pp. 338343.
Ashida, K. & Sawai, K. 1977 A study on the stream formation process on a bare slope (3). Annuals, Disaster Prevention Research Institute, Kyoto University no. 20B-2 (in Japanese).Google Scholar
Callander, R. A. 1969 Instability and river channels. J. Fluid Mech. 36, 365480.Google Scholar
Dahlin, B. 1974 A contribution to the study of meandering. M.Sc. Thesis, Dept. of Geology, Univ. of Minnesota, Minneapolis, Minn., U.S.A.
Engelund, F. 1974 Flow and bed topography in channel bends. J. Hydraul. Div., Proc. ASCE, 100, 16311648.Google Scholar
Engelund, F. & Skovgaard, O. 1973 On the origin of meandering and braiding in alluvial streams. J. Fluid Mech. 57, 289302.Google Scholar
Fredsoe, J. 1978 Meandering and braiding of rivers. J. Fluid Mech. 84, 607624.Google Scholar
Hack, J. T. 1965 Post-glacial drainage evolution and stream geometry in the Ontonagon area. Michigan, U.S. Geol. Surv. Prof. Paper no. 504–13.Google Scholar
Hansen, E. 1967 The formation of meanders as a stability problem. Hydraul. Lab., Tech. Univ. of Denmark, Basic Res. Prog. Rep., no. 13.Google Scholar
Hayashi, T. 1970 The formation of meanders in rivers. Proc. Japan Soc. Civ. Engrs no. 180 (in Japanese).Google Scholar
Hayashi, T. & Ozaki, Y. 1976 On the meander wavelength from the view point of bar instability theory. Proc. 20th Annual Meeting, Hydraul., Japan Soc. Civ. Engrs, pp. 8996 (in Japanese).
Hooke, R. Le B. 1975 Distribution of sediment transport and shear stress in a meander bend. Journal of Geology V, 83, 543–565.
Ikeda, S. 1975 On secondary flow and bed profile in alluvial curved open channel. Proc. 16th Congr. IAHR, vol. 2, pp. 105112.
Ikeda, S., Hino, M. & Kikkawa, H. 1976 Theoretical study on the free meandering of rivers. Proc. Japan Soc. Civ. Engrs no. 255, pp. 6373 (in Japanese).Google Scholar
Ikeda, S. 1978 Roles of secondary flow in the formation of channel geometry. Proc. U.S.-Japan Seminar on Sedimentation, 1978.
Kikkawa, H., Ikeda, S. & Kitagawa, A. 1976 Flow and bed topography in curved open channels. J. Hydraul. Div., Proc. ASCE, 102.Google Scholar
Kinoshita, R. 1957 Formation of dunes on river bed. Trans. Japan Soc. Civ. Engrs. no. 42 (in Japanese).Google Scholar
Leopold, L. B., Wolman, M. G. & Miller, J. P. 1964 Fluvial processes in Geomorphology. Freeman.
Parker, G. 1975 Meandering of supraglacial melt streams. Water Resources Res. 11, 551552.Google Scholar
Parker, G. 1976 On the cause and characteristic scales of meandering and braiding in rivers. J. Fluid Mech. 76, 457480.Google Scholar
Parker, G. & Anderson, A. G. 1975 Modelling of meandering and braiding in rivers. Proc. ASCE Modelling Symposium 1975, San Francisco, pp. 575591.
Parker, G., Sawai, K. & Ikeda, S. 1982 Bend theory of river meanders. Part 2. Nonlinear deformation of finite-amplitude bends. J. Fluid Mech. (to be published).
Ponce, V. M. & Mahmood, K. 1976 Meandering thalwegs in straight alluvial channels. Proc. ASCE Rivers Conference 1976, Fort Collins, Colorado.
Sawai, K. & Ashida, K. 1979 A test method of soil erodibility by means of the rotating cylinder. Annuals, Disaster Prevention Research Institute, Kyoto University no. 22B-2 (in Japanese).Google Scholar
Schumm, S. A. 1969 River metamorphosis. J. Hydraul. Div., Proc. ASCE 96, 201222.Google Scholar
Smart, C. 1977 A statistical analysis of cave meanders. M.Sc. thesis, Dept. of Geography, University of Alberta, Edmonton, Alberta, Canada.
Suga, K. 1963 On local scour at river bends. Tech. Memo Public Works Res. Inst., Min. of Const. Japan, vol. 5, no. 4 (in Japanese).
Sukegawa, N. 1970 Conditions for the occurrence of river meanders. J. Faculty of Eng., Univ. of Tokyo, vol. 30, pp. 289306.
Tratman, E. K. 1969 The Caves of North-West Clare, Ireland. David and Charles: Newton Abbot, London.
Zimmerman, C. & Kennedy, J. F. 1978 Transverse bed slopes in curved alluvial streams. J. Hydraul. Div., Proc. ASCE, 104, 3348.Google Scholar