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Bedload transport and channel change in gravel-bed riversAshworth, Philip John January 1987 (has links)
Spatial and temporal variations in channel morphology, near-bed velocity, shear stress, bedload transport rate, pebble tracer movement, and bedload and bed material size distribution were measured in seven different channel patterns in two gravel-bed rivers in the Scottish Highlands (the Dubhaig and Feshie) and a proglacial stream in Norway (the Lyngsdalselva). The results showed that there were discernible links between the channel processes and changes which were consistent for all river types. 169 shear stress estimates from velocity profiles with changing discharge showed that Keller's (1971) velocity-reversal hypothesis holds true in different channel patterns of gravel-bed rivers and can be extended to include subunits of the pool/riffle cycle. At discharges near bankfull there is a decrease in the flow strength and amount of bedload movement from the poolhead down to the pooltail (and then riffle). On a broader scale 72 Helley-Smith bedload samples and the movement of over 3700 pebble tracers showed that the entrainment of different size fractions from heterogeneous bed material is inefficient and is overpredicted by the traditional bedload transport equations. Empirical analyses showed that when the armour is mobile/broken large and small particles have almost equal mobility as first proposed by Parker et al. (1982) and Andrews (1983). However for the majority of flow conditions the armour is static and entrainment is selective to a greater or lesser degree depending on the availability of appropriate-sized sediment at the surface and from bank erosion. The magnitude and direction of flow strength and bedload transport helps to explain the location and mode of channel development as revealed by repeated levelling and mapping. The accelerating convergent/decelerating divergent cells of flow alter the channel morphology in predictable ways. The positions of these cells can change with increasing discharge as the channel becomes generally, rather than locally, competent to move coarse sediment. The rates of bank erosion and volumetric scour and fill decreased from the active multi-braided system through to the stable straight channel type.
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Drawdown and river bank stabilityGreen, Samuel John Unknown Date (has links) (PDF)
Drawdown is the lowering of the water level, and can refer to the groundwater, or the level of a river. In this thesis it will generally refer to a river going from a high flow condition to a lower flow condition. The rate of drawdown is expressed as either the change in flow per unit time, or the change in stage per unit time. The later is of most importance in terms of bank stability. (For complete abstract open document)
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The Use Of Pb Isotopes To Characterize The Ftae And Transport Of Pb In An Interrupted Stream, Aravaipa Creek, Graham County,ArizonaTorre de Álvaraz Morfĩn, Orestes de la January 1999 (has links) (PDF)
Thesis (M.S. - Hydrology and Water Resources)--University of Arizona. / Includes bibliographical references (leaves 99-104).
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Flussmorphologische Prozesse am Beispiel alpiner Einzugsgebiete /Schober, Stephan. January 2006 (has links)
Univ. für Bodenkultur, Diss.--Wien, 2006.
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Reach scale sampling metrics and longitudinal pattern adjustments of small streams /Robison, E. George. January 1900 (has links)
Thesis (Ph. D.)--Oregon State University, 1998. / Typescript (photocopy). Includes bibliographical references (leaves 201-217). Also available on the World Wide Web.
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The significance of streambed sediments as a reservoir of Cryptosporidium oocysts /Crockett, Christopher Scott. Haas, Charles N. January 2004 (has links)
Thesis (Ph. D.)--Drexel University, 2004. / Includes abstract and vita. Includes bibliographical references (leaves 200-209).
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Post-flood channel adjustments in the Upper Kickapoo River, Southwest WisconsinJames, L. Allen. January 1983 (has links)
Thesis (M.S.)--University of Wisconsin--Madison, 1983. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 237-247).
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The comparative sediment processes in channel and overbankJung, Kwansue, 1959- January 1989 (has links)
The question posed in this study is why alluvial soil on a floodplain is finer than the bed material of the river that supplied the sediments deposited to form the floodplain. A schematic, simplified river/floodplain system is used in an approximate analysis to find the size distribution of the floodplain soil. It is assumed that the stable limiting condition is a suspended load in the floodplain flow of the same concentration and composition as the sediment load in that portion of the river channel flow above the level of the floodplain. It was found that floodplain soil should be finer than the channel bed material; how much finer depending on the bank height, and to a lesser degree the width of the floodplain.
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Relationships between stream geomorphology and fish community structure and diversity in Maine /Gaenzle, Emily, January 2002 (has links)
Thesis (M.S.) in Ecology and Environmental Sciences--University of Maine, 2002. / Includes vita. Bibliography: leaves 57-59.
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Scour and fill in a gravel-bed channel : observations and stochastic modelsHaschenburger, Judith Kay 05 1900 (has links)
This study investigates channel bed scour and fill as a result of individual flood events in a
gravel-bed channel. Given the complexity of interactions between hydraulic force, the texture and
arrangement of bed material, and input of sediment to a particular point of the channel bed, study
objectives were pursued with the view that bed material movement is a stochastic phenomenon.
A two-year field program was conducted in Carnation Creek, a small gravel-bed stream
draining 11 km2 on the west coast of Vancouver Island, British Columbia. In the 900 m study
reach, an array of measurement techniques, including scour indicators, magnetically-tagged stones,
and conventional survey, yielded information about the fluctuations of the channel bed elevation
and movement of scoured material for individual flooding periods.
Frequency distributions of scour and fill depths associated with individual flooding periods
are adequately modeled by negative exponential functions over the range of flood peak magnitudes
observed in Carnation Creek. Analysis of scour depths measured in streams on the Queen
Charlotte Islands demonstrates the applicability of the exponential model to flooding periods and
flood seasons. Further, exploratory analysis suggests that a regional scour depth model is
possible.
Power functions relating mean depths of scour and fill to flood peak discharge show that
depth increases with an increase in peak magnitude. Observed maximum scour depths in flooding
periods are linked, in general, to streambed conditions influenced by antecedent flow conditions.
These patterns in scour and fill exist within an overall pattern of increasing variability in depths of
scour and fill as peak discharge increases.
Evaluation of a heuristic model for mean travel distance as a function of particle size
proposed by Church and Hassan (1992) provides convincing evidence for its general merit. Mean
travel distance decreases inversely with particle size as size increases beyond the median diameter
of subsurface sediment. This trend is consistent in both individual flooding periods as well as
flood seasons. The majority of material finer than the median diameter of surface sediment is
supplied from subsurface material, which influences the travel distances of these finer fractions
because of burial. Computation of volumetric transport rates of bed material, based on the active scour depth
and width of the channel bed, the virtual velocity of particle movement, and sediment porosity,
suggests the potential for building scale correlations with streamflow, which have usually been
defined by bedload sampling during floods. Error analysis indicates that determination of active
width contributes most significantly to the imprecision of transport rate estimates.
Results underscore the stochastic nature of sediment transport in gravel-bed channels.
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