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River incision is the narrow
erosion Erosion is the action of surface processes (such as water flow or wind) that removes soil, rock, or dissolved material from one location on the Earth's crust, and then transports it to another location where it is deposited. Erosion is d ...
caused by a
river A river is a natural flowing watercourse, usually freshwater, flowing towards an ocean, sea, lake or another river. In some cases, a river flows into the ground and becomes dry at the end of its course without reaching another body of ...
or stream that is far from its
base level In geology and geomorphology a base level is the lower limit for an erosion process. The modern term was introduced by John Wesley Powell in 1875. The term was subsequently appropriated by William Morris Davis who used it in his cycle of erosion ...
. River incision is common after tectonic uplift of the landscape. Incision by multiple rivers result in a dissected landscape, for example a
dissected plateau A dissected plateau is a plateau area that has been severely eroded such that the relief is sharp. Such an area may be referred to as mountainous, but dissected plateaus are distinguishable from orogenic mountain belts by the lack of folding, ...
. River incision is the natural process by which a river cuts downward into its bed, deepening the active channel. Though it is a natural process, it can be accelerated rapidly by human factors including land use changes such as timber harvest, mining, agriculture, and road and dam construction. The rate of incision is a function of basal shear-stress. Shear stress is increased by factors such as sediment in the water, which increase its density.
Shear stress Shear stress, often denoted by ( Greek: tau), is the component of stress coplanar with a material cross section. It arises from the shear force, the component of force vector parallel to the material cross section. '' Normal stress'', on ...
t is proportional to water mass, gravity, and WSS: ::t = \rho gD\sin where t is
shear stress Shear stress, often denoted by ( Greek: tau), is the component of stress coplanar with a material cross section. It arises from the shear force, the component of force vector parallel to the material cross section. '' Normal stress'', on ...
(N/m2), ρ is density of flowing water, g is
gravity In physics, gravity () is a fundamental interaction which causes mutual attraction between all things with mass or energy. Gravity is, by far, the weakest of the four fundamental interactions, approximately 1038 times weaker than the stro ...
on Earth, D is average water depth, and WSS is Water Surface Slope. This is analogous to the basal shear stress commonly used in glaciology. Increases in slope, depth, or density of water increase the water's potential to cause erosion.


Causes

Traditional logging in the West coast of the United States included many practices which increased river incision. Timber removal and the associated road construction facilitate runoff and thus increased erosion and sediment delivery to streams. Increases in sediment increases the water's stream power, increasing the stream's ability to do geomorphic work on the bed and banks.Yang, C. T., Stall, J. B. (1974). Unit stream power for sediment transport in natural rivers. Illinois State Water Survey. Urbana, Illinois. UILU-WRC-74-0088. This leads to scouring of the bed material, exposing the bedrock channel bed to erosion and thus faster rates of channel incision. The scoured bed material consists of finer sediments such as silts, sands, and gravels. The removal of these removes important aquatic habitats for
salmonid Salmonidae is a family of ray-finned fish that constitutes the only currently extant family in the order Salmoniformes . It includes salmon (both Atlantic and Pacific species), trout (both ocean-going and landlocked), chars, freshwater whitefi ...
species and other aquatic organisms.Kondolf, G. (1997). Profile: Hungry water: Effects of dams and gravel mining on river channels. Environmental Management, 21(4), 533–551. In many agricultural areas, rivers have been straightened and dyked for flood control and to plant crops in the floodplain.Doyle, M. Shields Jr. F. 1998. Perturbations of Stage Hydrographs Caused by Channelization and Incision. International Conference on Water Resource Engineering Proceedings, 5/1/1998. Normally, floods are allowed to spread out across the floodplain, allowing deposition of sediment and slowing water speeds, reducing the erosive potential of the water. Channelization concentrates flood flows down the active channel, increasing erosion. River incision due to agriculture is well-documented throughout the agricultural regions of the world, such as the Central Valley of California. In-stream gravel mining is also well documented as a cause of river incision. Stable material on the river bed mitigate erosion, removing this armoring layer of gravel, boulders, etc. exposes the channel bed to the erosive force of the water. "On the Russian River near Healdsburg, California, instream pit mining in the 1950s and 1960s caused channel incision in excess of 3-6 m over an 11-km length of river." Tectonics play an important role in shaping landscapes and rivers, and tectonic uplift and river incision go hand in hand. Over geologic time, as mountains rise higher, water erodes deep gorges and channels, dissecting the landscape. In some instances, such as the Sierra Nevada mountains of California, up to 1 km of incision has been shown to have occurred over the last 5 million years. "River erosion is one of the primary agents of landscape evolution. Outside of glaciated regions, rivers are responsible for sculpting uplifted terrain into arborescent valley networks and creating the relief that drives gravitational transport processes such as landsliding". Rivers and streams that cross tectonic boundaries are subject to immense geomorphic change. When an area in the path of a river is uplifted, the river must either divert, or slowly incise into the uplifted area, creating a gorge or canyon.


Effects


Groundwater level drop

As a channel bed drops, the water in the surrounding aquifer runs into the stream, lowering the water table. This modifies the flow regime of a stream, and can lead to a large reduction in summer flows. Prolonged incision can lower the water table to the point where the roots of the riparian vegetation can no longer access it for water, causing the death of the riparian forest and thus a loss of soil stability, contributing to increased sedimentation. Riparian forests are some of the most productive and diverse ecosystems on the planet and are for this reason the focus of many restoration projects throughout the United States.


Change in hillslope form

At low erosion rates increased stream incision may make gentle slopes to erode creating convex-up forms. Convex slopes around a stream can thus indirectly reflect accelerated crustal uplift. This is because accelerated incision may trigger accelerated erosion on the adjacent slopes creating slopes progressively steeper slopes that are in equilibrium with high erosion rates.


Notes


References


Further reading

*Doyle, M. Shields Jr. F. 1998. Perturbations of Stage Hydrographs Caused by Channelization and Incision. International Conference on Water Resource Engineering Proceedings, 5/1/1998. * *Fredriksen, R. L. 1970. Research Papers.. Pacific Northwestern Forest and Range Experiment Station. 1970 No.PNW-104 pp. 15. * *Jansen, J. (2006), Flood magnitude-frequency and lithologic control on bedrock river incision in post-orogenic terrain. Geomorphology. V82, Issues 1–2, Pages 39–57. *Kondolf, G. (1997). Profile: Hungry water: Effects of dams and gravel mining on river channels. Environmental Management, 21(4), 533–551. * * * * *Neal, Edward G., 2009, Channel incision and water-table decline along a recently formed proglacial stream, Mendenhall Valley, southeastern Alaska, in Haeussler, P.J., and Galloway, J.P., Studies by the U.S. Geological Survey in Alaska, 2007: U.S. Geological Survey Professional Paper 1760-E, 15 *Schumm, S., Dumont, J., Holbrook, J. Active Tectonics and Alluvial Rivers. Cambridge University Press, Feb 21, 2002. * * *Yang, C. T., Stall, J. B. (1974). Unit stream power for sediment transport in natural rivers. Illinois State Water Survey. Urbana, Illinois. UILU-WRC-74-0088. {{River morphology Fluvial geomorphology Geomorphology Erosion