Case Study: Channel Stability of the Missouri River, Eastern Montana

The construction of Fort Peck Dam in the 1930s on the Missouri River, eastern Montana, initiated a series of changes in hydrologic conditions and channel morphology downstream from the dam that impacted channel stability. Impacts included streambed degradation of up to 3.6 m and substantially altere...

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Bibliographic Details
Published in:Journal of hydraulic engineering (New York, N.Y.) N.Y.), 2002-10, Vol.128 (10), p.880-890
Main Authors: Simon, Andrew, Thomas, Robert E, Curini, Andrea, Shields, F. Douglas
Format: Article
Language:English
Subjects:
Applied sciences
bank erosion
Buildings. Public works
dams (hydrology)
equations
Exact sciences and technology
Hydraulic constructions
hydrology
River flow control. Flood control
rivers
stream channels
stream flow
streambank stability
surface water level
TECHNICAL PAPERS
USA, Montana, Missouri R
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Summary:The construction of Fort Peck Dam in the 1930s on the Missouri River, eastern Montana, initiated a series of changes in hydrologic conditions and channel morphology downstream from the dam that impacted channel stability. Impacts included streambed degradation of up to 3.6 m and substantially altered magnitude, frequency, and temporal distribution of flows. To investigate the effects of the altered flow regime and bed degradation on bank stability, two independent bank-stability analyses (one for planar failures, the other for rotational failures) were performed on 17 outside meanders. Both included the effects of matric suction and positive pore-water pressures, confining pressures, and layering. Instability occurred from the loss of matric suction and the generation of positive pore-water pressures. In this semiarid region, such hydrologic conditions are most likely to occur from the maintenance of moderate and high flows (greater than 425-566 m3/s) for extended periods (5-10 days or more), thereby providing a mechanism for saturation of the streambank. For the postdam period, average annual frequencies of flows maintained above 566 m3/s for 5- and 10-day durations are 149 and 257% greater, respectively. The analyses indicated that 30% of the sites were susceptible to planar failures while 53% of the sites were susceptible to rotational failures under sustained moderate- and high-flow conditions, while under a worst-case rapid drawdown scenario, 80% of the banks were susceptible to failure. Despite the negative effects of the altered flow regime, analysis of maps and aerial photographs shows that closure of Fort Peck Dam has resulted in a fourfold reduction of the average rate of long-term channel migration between the dam and the North Dakota border.
ISSN:0733-9429
1943-7900
DOI:10.1061/(ASCE)0733-9429(2002)128:10(880)