Hostname: page-component-78c5997874-fbnjt Total loading time: 0 Render date: 2024-11-05T10:10:10.015Z Has data issue: false hasContentIssue false
  • English
  • Français

On the cause and characteristic scales of meandering and braiding in rivers

Published online by Cambridge University Press:  11 April 2006

Gary Parker
Gary Parker
Affiliation:
Department of Civil Engineering, The University of Alberta, Edmonton, Canada T6G 2G7
Get access Rights & Permissions [Opens in a new window]

Abstract

A stability analysis of meandering and braiding perturbations in a model alluvial river is described. A perturbation technique, involving a small parameter representing the ratio of sediment transport to water transport, is used to obtain the following results.

Under appropriate conditions, the existence of sediment transport and friction are necessary conditions for the occurrence of instability in the flow and on the bed; thus instability is not inherent in the flow alone. An Anderson-type scale relation for longitudinal instability is obtained for meandering. A relation estimating the number of braids and differentiating between meandering and braided regimes is derived. These relations are independent of sediment transport.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 76 , Issue 3 , 11 August 1976 , pp. 457 - 480
Copyright
© 1976 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

Ackers, P. & Charlton, F. G. 1970 Meandering of small streams in alluvium. Hydraul. Res. Station, Wallingford, Berks., Rep. INT 77.Google Scholar
Adachi, S. 1967 A theory of stability of streams. Proc. 12th Cong. IAHR, Fort Collins, Colorado, vol. 1, pp. 338343.
Anderson, A. G. 1967 On the development of stream meanders. Proc. 12th Cong. IAHR, Fort Collins, Colorado, vol. 1, pp. 370378.
Anderson, A. G., Parker, G. & Wood, A. 1975 The flow and stability characteristics of alluvial river channels. St Anthony Falls Hydraul. Lab., Univ. Minnesota, Proj. Rep. no. 157.Google Scholar
Ashida, K. & Narai, S. 1969 The structure of movable bed configuration. Bull. Disaster Prevention Res. Inst., Kyoto Univ., Kyoto, Japan, 19, 1530.Google Scholar
Brown, C. B. 1950 Sediment transportation. In Engineering Hydraulics (ed. H. Rouse), p. 796. Wiley.
Callander, R. A. 1969 Instability and river channels. J. Fluid Mech 36, 465480.Google Scholar
Chang, H., Simons, D. B. & Woolhiser, D. A. 1971 Flume experiments on alternate bar formation. Proc. A.S.C.E., Waterways, Harbors Coastal Engng Div. 97 (WWI), 155165.Google Scholar
Chien, N. 1961 The braided stream of the Lower Yellow River. Scientia Sinica, 10, 734754.Google Scholar
Chow, V. T. 1959 Open Channel Hydraulics. McGraw-Hill.
Colby, B. & Hembree, C. 1955 Computations of total sediment discharge Niobrara River near Cody, Nebraska. U.S.G.S. Water Supply Paper, no. 1357.Google Scholar
Einstein, H. A. & Barbarossa, N. L. 1952 River channel roughness. Trans. A.S.C.E 117, 11211132.Google Scholar
Engelund, F. & Skovgaard, O. 1973 On the origin of meandering and braiding in alluvial streams. J. Fluid Mech 57, 289302.Google Scholar
Fahnestock, R. 1963 Morphology and hydrology of a glacial stream—White River, Mount Ranier, Washington. U.S.G.S. Prof. Paper, 422-A.Google Scholar
Fahnestock, R. K. & Bradley, W. C. 1973 Knik and Matanuska Rivers, Alaska: a contrast in braiding. In Fluvial Geomorphology (ed. M. Morisawa), pp. 220250. Publications in Geomorphology, State University of New York.
Fahnestock, R. K. & Maddock, T. 1964 Preliminary report on bedforms and flow phenomena in the Rio Grande near El Paso, Texas. U.S.G.S. Prof. Paper, 501-B.Google Scholar
Friedkin, J. F. 1945 A laboratory study of the meandering of alluvial rivers. In River Morphology (ed. S. Schumm), pp. 237281. Stroudsburg, Pennsylvania: Dowden, Hutchinson & Ross.
Gorycki, M. A. 1973a Hydraulic drag: a meander-initiating mechanism. Bull. Geol. Soc. Am. 175186.Google Scholar
Gorycki, M. A. 1973b Reply: Hydraulic drag: a meander-initiating mechanism. Bull. Geol. Soc. Am 84, 31193122.Google Scholar
Gupta, S. N., Sharma, J. P., Jindal, S. R. & Chandra, S. 1969 Alluvial river behavior—a few aspects of its simulation in a model. Proc. 13th Congr. I.A.H.R., Kyoto, Japan, vol. 1, pp. 267276.
Hansen, E. 1967 The formation of meanders as a stability problem. Hydraul. Lab., Tech. Univ. Denmark, Basic Res. Prog. Rep. no. 13.Google Scholar
Hayashi, T. 1970 The formation of meanders in rivers. Proc. Japan Soc. Civil Engrs, no. 180.Google Scholar
Henderson, F. M. 1966 Open Channel Flow. Macmillan.
Hirano, M. 1973 River-bed variation with bank erosion. Proc. Japan Soc. Civil Engrs, no. 210.Google Scholar
Hubbell, D. & Matejka, D. 1959 Investigations of sediment transportation middle Loup River at Dunning, Nebraska. U.S.G.S. Water Supply Paper, no. 1476.Google Scholar
Jones, B., Hawley, N. & Crippen, J. 1972 Sediment transport in the Western Tributaries of the Sacramento River, California. U.S.G.S. Water Supply Paper, no. 1798-J.Google Scholar
Karcz, I. 1971 Development of a meandering thalweg in a straight, erodible laboratory channel. J. Geol 79, 234240.Google Scholar
Kinoshita, R. 1957 Formation of dunes on river beds—an observation on the condition of river meandering. Proc. Japan Soc. Civil Engrs, no. 42.Google Scholar
Leopold, L. B. & Wolman, M. G. 1957 River channel patterns: braided, meandering, and straight. U.S.G.S. Prof. Paper, no. 282-B.Google Scholar
Maddock, T. 1970 Indeterminate hydraulics of alluvial channels. Proc. A.S.C.E., J. Hydraul. Div. 96, (HY11), 23092323.Google Scholar
Mapes, B. 1969 Sediment transport by streams in the Walla Walla River Basin, Washington and Oregon, July 1962-June 1965. U.S.G.S. Water Supply Paper, no. 1968.Google Scholar
Nordin, C. & Beverage, J. 1965 Sediment transport in the Rio Grande, New Mexico. U.S.G.S. Prof. Paper, no. 462-F.Google Scholar
Nordseth, K. 1973 Fluvial processes and adjustments on a braided river. The islands of Koppangsoyene on the River Glomma. Norsk Geografesk Tidsskrift, 27, 77108.Google Scholar
Parker, G. 1975 Meandering of supraglacial melt streams. Water Resources Res 11, 551552.Google Scholar
Peterson, A. W. 1975 Universal flow diagrams for mobile boundary channels. Can. J. Civ. Engng, 2, 549557.Google Scholar
Quraishy, M. 1973 The meandering of alluvial rivers. Sind Univ. Res. J. (Sci. Ser.), 7, 95152.Google Scholar
Raudkivi, A. J. 1963 Study of sediment ripple formation. Proc. A.S.C.E., J. Hydraul. Div. 89 (HY6), 1533.Google Scholar
Schumm, S. A. 1963 Sinuosity of alluvial rivers on the great plains. Bull. Geol. Soc. Am 74, 10891100.Google Scholar
Schumm, S. A. & Khan, H. R. 1972 Experimental study of channel patterns. Bull. Geol. Soc. Am 83, 17551770.Google Scholar
Sharma, P. 1974 Extract, meandering, braiding, and avulsion of rivers and their prevention, from 1963-1973. Rep. Irrigation Res. Inst., Roorkee, India.
Shen, H. W. 1962 Development of bed roughness in alluvial channels. Proc. A.S.C.E., J. Hydraul. Div. 88 (HY3), 4558.Google Scholar
Simons, D. B. 1957 Theory and design of stable channels in alluvial material. Ph.D. thesis, Colorado State University.
Stommel, F. 1965 The Gulf Stream. University of California Press.
Sukegawa, N. 1970 Conditions for the occurrence of river meanders. J. Faculty Engng, Univ. Tokyo, 30, 289306.Google Scholar
Vanoni, V. A. et al. 1972 Sediment control methods. B: stream channels. Proc. A.S.C.E., J. Hydraul. Div. 98 (HY7), 12951323.Google Scholar
Vincent, J. 1967 Effect of bedload movement on the roughness coefficient value. Proc. 12th Congr. I.A.H.R., Fort Collins, Colorado, vol. 1, pp. 162171.
Werner, P. W. 1951 On the origin of river meanders. Trans. Am. Geophys. Un 32, 898902.Google Scholar
Winkley, B. R. 1973 Metamorphosis of a river. Water Resources Res. Inst., Mississippi State Univ., Rep. no. 39762.Google Scholar
Wolman, M. G. & Brush, L. M. 1961 Factors controlling the size and shape of stream channels in coarse noncohesive sands. U.S.G.S. Prof. Paper, no. 282-G.Google Scholar