Fluvial processes

In geography and geology, fluvial processes are associated with rivers and streams and the deposits and landforms created by them. When the stream or rivers are associated with glaciers, ice sheets, or ice caps, the term glaciofluvial or fluvioglacial is used.[1][2]

Deep, eroding glaciofluvial deposits alongside the Matanuska River, Alaska

Fluvial processes
The White River is so named due to the clay it picks up in the Badlands of South Dakota. Here it flows into the Missouri River and colors it with clay.

Fluvial processes include the motion of sediment and erosion or deposition on the river bed.[3][4]

The movement of water across the stream bed exerts a shear stress directly onto the bed. If the cohesive strength of the substrate is lower than the shear exerted, or the bed is composed of loose sediment which can be mobilized by such stresses, then the bed will be lowered purely by clearwater flow. In addition, if the river carries significant quantities of sediment, this material can act as tools to enhance wear of the bed (abrasion). At the same time the fragments themselves are ground down, becoming smaller and more rounded (attrition).

Sediment in rivers is transported as either bedload (the coarser fragments which move close to the bed) or suspended load (finer fragments carried in the water). There is also a component carried as dissolved material.

For each grain size there is a specific flow velocity at which the grains start to move, called entrainment velocity. However the grains will continue to be transported even if the velocity falls below the entrainment velocity due to the reduced (or removed) friction between the grains and the river bed. Eventually the velocity will fall low enough for the grains to be deposited. This is shown by the Hjulström curve.

A river is continually picking up and dropping solid particles of rock and soil from its bed throughout its length. Where the river flow is fast, more particles are picked up than dropped. Where the river flow is slow, more particles are dropped than picked up. Areas where more particles are dropped are called alluvial or flood plains, and the dropped particles are called alluvium.

Even small streams make alluvial deposits, but it is in floodplains and deltas of large rivers that large, geologically-significant alluvial deposits are found.

The amount of matter carried by a large river is enormous. It has been estimated that the Mississippi River annually carries 406 million tons of sediment to the sea,[5] the Yellow River 796 million tons, and the Po River in Italy 67 million tons.[6] The names of many rivers derive from the color that the transported matter gives the water. For example, the Yellow River (Huang He) in China is named after the hue of the sediment it carries,[7] and the White Nile is named for the clay it carries.

See also

Fluvial processes
  • Bradshaw model – Geographical model of river characteristics
  • Corrosion – Gradual destruction of materials by chemical reaction with its environment (solution)
  • Erosion – Natural processes that remove soil and rock
    • Downcutting – Process of deepening a stream channel by erosion of the bottom material
  • Saltation (geology) – Particle transport by fluids
  • Suspension (chemistry) – Heterogeneous mixture of solid particles dispersed in a medium

Fluvial channel patterns
  • Anastomosis – Unusual connection between channels
  • Braided river – Network of river channels separated by small, and often temporary, islands
  • Channel pattern – Characteristic geometry of a channel system
  • Meandering river – One of a series of curves in a channel of a matured stream

Fluvial landforms
  • Channel (geography) – Type of landform in which part of a body of water is confined to a relatively narrow but long region
  • Confluence – Meeting of two or more bodies of flowing water
  • Cut bank – Outside bank of a water channel, which is continually undergoing erosion
  • Crevasse splay – Sediment deposited on a floodplain by a stream which breaks its levees
  • Drainage basin – Area of land where precipitation collects and drains off into a not so safe outlet (watershed)
  • Esker – Long, winding ridge of stratified sand and gravel associated with former glaciers
  • Floodplain – Land adjacent to a river which is flooded during periods of high discharge
  • Fluvial landforms of streams
  • Fluvial terrace – Elongated terraces that flank the sides of floodplains and river valleys
  • Canyon – Deep chasm between cliffs (Gorge)
  • Gully – Landform created by running water and/or mass movement eroding sharply into soil
  • Island – Piece of subcontinental land completely surrounded by water
  • Levee § Natural levees
  • Meander – One of a series of curves in a channel of a matured stream
  • Oxbow lake – U-shaped lake or pool
  • Pendant bar – fluvial landform formed on the downstream side of a weathering-resistant protrusion
  • Plunge pool – Depression at the base of a waterfall
  • Point bar – Landform related to streams and rivers
  • Riffle – Shallow landform in a flowing channel
  • River – Natural flowing watercourse
  • River delta – Silt deposition landform at the mouth of a river
  • River island – Exposed landmass within a river
  • River valley, also known as vale – Low area between hills, often with a river running through it
  • Shoal, also known as bar – Natural submerged sandbank that rises from a body of water to near the surface
  • Spring (hydrology) – Point at which water emerges from an aquifer to the surface
  • Stream – Body of surface water flowing down a channel
  • Stream pool – Deep and slow-moving stretch of a watercourse
  • Waterfall – A point in a river or stream where water flows over a vertical drop
  • Yazoo stream – Hydrologic term

References
  1. Neuendorf, Klaus K.E.; Mehl James P..Jreditor-first3=Julia A., James P.; Jackson, eds. (2011). Glossary of Geology (5th revised ed.). Alexandria, Virginia: American Geological Institute. p. 800. ISBN 978-3642066214. OCLC 751527782.
  2. Wilson, W.E. & Moore, J.E. 2003. Glossary of Hydrology, American Geological Institute, Springer, 248pp.
  3. Charlton, Ro (2008). Fundamentals of fluvial geomorphology. London: Rutledge. p. 234. ISBN 978-0-415-33454-9.
  4. Wohl, Ellen (2014). Rivers in the Landscape: Science and Management. Wiley-Blackwell. p. 330. ISBN 978-1118414897.
  5. Mathur, Anuradha; Dilip da Cunha (2001). Mississippi Floods: Designing a Shifting Landscape. New Haven, CT: Yale University Press. ISBN 0-300-08430-7
  6. Dill, William A. (1990). Inland fisheries of Europe. Rome, Italy: UN Food and Agriculture Organization. ISBN 92-5-102999-7. http://www.fao.org/docrep/009/t0377e/t0377e00.htm Archived 2018-03-01 at the Wayback Machine
  7. MOSTERN, RUTH; HORNE, RYAN M. (2021). The Yellow River: A Natural and Unnatural History. Yale University Press. p. 33. doi:10.2307/j.ctv1vbd1d8.7. ISBN 978-0-300-23833-4. JSTOR j.ctv1vbd1d8.
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