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The partitioning of the total sediment load of a river into suspended load and bedload: a review of empirical data 总被引:1,自引:0,他引:1
The partitioning of the total sediment load of a river into suspended load and bedload is an important problem in fluvial geomorphology, sedimentation engineering and sedimentology. Bedload transport rates are notoriously hard to measure and, at many sites, only suspended load data are available. Often the bedload fraction is estimated with ‘rule of thumb’ methods such as Maddock’s Table, which are inadequately field‐tested. Here, the partitioning of sediment load for the Pitzbach is discussed, an Austrian mountain stream for which high temporal resolution data on both bedload and suspended load are available. The available data show large scatter on all scales. The fraction of the total load transported in suspension may vary between zero and one at the Pitzbach, while its average decreases with rising discharge (i.e. bedload transport is more important during floods). Existing data on short‐term and long‐term partitioning is reviewed and an empirical equation to estimate bedload transport rates from measured suspended load transport rates is suggested. The partitioning averaged over a flood can vary strongly from event to event. Similar variations may occur in the year‐to‐year averages. Using published simultaneous short‐term field measurements of bedload and suspended load transport rates, Maddock’s Table is reviewed and updated. Long‐term average partitioning could be a function of the catchment geology, the fraction of the catchment covered by glaciers and the extent of forest, but the available data are insufficient to draw final conclusions. At a given drainage area, scatter is large, but the data show a minimal fraction of sediment transported in suspended load, which increases with increasing drainage area and with decreasing rock strength for gravel‐bed rivers, whereby in large catchments the bedload fraction is insignificant at ca 1%. For sand‐bed rivers, the bedload fraction may be substantial (30% to 50%) even for large catchments. However, available data are scarce and of varying quality. Long‐term partitioning varies widely among catchments and the available data are currently not sufficient to discriminate control parameters effectively. 相似文献
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Résumé En zones semi-arides, l'irrégularité temporelle des écoulements pose de sérieux problèmes aux ingénieurs chargés d'évaluer le transport solide dans les bassins versants. Ainsi, pour décider d'une méthodologie d'estimation de l'érosion spécifique, les écoulements au droit de deux stations hydrométriques contrôlant des sous-bassins adjacents sont examinés, dont les apports se rejoignent à quelques kilomètres à l'aval, dans un barrage en exploitation. Vingt deux années de mesures de concentrations en éléments fins en suspension (1973/74-1994/95) sont étudiées; l'approche statistique consiste à les homogénéiser par la recherche d'un modèle régressif significatif reliant le débit solide au débit liquide, à différentes échelles temporelles, permettant ainsi de quantifier d'une part l'érosion et de dégager d'autre part la saison productive en sédiments. L'approche mensuelle avec un modèle en loi de puissance reste la plus significative, expliquant en moyenne 80% de la variation totale. L'automne constitue une saison particulièrement productive en sédiments, véhiculant en moyenne plus de 50% de l'apport solide moyen interannuel. 相似文献
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The Po Valley Fog Experiment 1989 总被引:13,自引:0,他引:13
S. FUZZI M. C. FACCHINI G. ORSI J. A. LIND W. WOBROCK M. KESSEL R. MASER W. JAESCHKE K. H. ENDERLE B. G. ARENDS A. BERNER I. SOLLY C. KRUISZ G. REISCHL S. PAHL U. KAMINSKI P. WINKLER J. A. OGREN^ K. J. NOONE• A. HALLBERG H. FIERLINGER-OBERLINNINGER H. PUXBAUM A. MARZORATI H.-C. HANSSON A. WIEDENSOHLER I. B. SVENNINGSSON B. G. MARTINSSON D. SCHELL H. W. GEORGII 《Tellus. Series B, Chemical and physical meteorology》1992,44(5):448-468
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Successive aeolian saltation: studies of idealized collisions 总被引:3,自引:0,他引:3
DIETER A. RUMPEL 《Sedimentology》1985,32(2):267-280
As observed by Bagnold and experimentally reconfirmed by other workers, the impact angles of saltating grains are remarkably constant over a wide range of conditions, lying between 10° and 16°. It can be shown that successive saltation contains a mechanism which very effectively confines impact angles to that range. This control mechanism is most effective at windspeeds less than about 15–30 m s-1, depending on grain diameter and mass. The control mechanism is evaluated from model calculations of grain populations saltating over a level bed consisting of a layer of loose grains. The grains are assumed to be spherical and uniform in size and mass, also rigid and perfectly elastic. The model also describes distributions of maximum height of grain paths and of lift-off-angles. Compared to other processes involved in aeolian saltation, successive saltation is the only process with a high probability of transferring energy from horizontal into vertical grain movement. This fact, together with the calculations presented, strongly suggests that successive saltation plays a major role in saltation in air. Successive saltation of uniform grains is theoretically impossible if the ground over which saltation occurs is tilted by about 15° against wind direction. Values of tilt angles in this range are observed in nature as stoss-side angles of dunes and ripples, leading to the concept that stoss-sides are tilted up by deposition until successive saltation is subdued. 相似文献
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