River Presentation

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River processes and landforms

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River Presentation

  1. 1. Fluvial landforms: RIVER PROCESSES: EROSION TRANSPORTATION DEPOSITION <ul><li>LANDFORMS: </li></ul><ul><li>POTHOLES </li></ul><ul><li>RAPIDS </li></ul><ul><li>WATERFALLS </li></ul><ul><li>INTERLOCKING SPURS </li></ul><ul><li>DELTA </li></ul><ul><li>FLOODPLAIN </li></ul><ul><li>LEVEES </li></ul><ul><li>BRAIDED CHANNELS </li></ul>SALTATION/ TRACTION SUSPENSION/SOLUTION CORRASION/ATTRITION. SOLUTION/ HYDRAULIC ACTION.
  2. 2. Types of flows <ul><li>Laminar flow : horizontal movement water on over sediment on the river bed. </li></ul><ul><li>Turbulence flow : irregular eddying type of flow associated with channel roughness or rapids. </li></ul><ul><li>Helicoidal flow : corkscrew flow within the downstream flow of a river. (moves from inside to outside banks of a meander) </li></ul>
  3. 3. River transportation <ul><li>The load is transported by 4 ways: </li></ul><ul><li>Saltation: when pebbles, sand and gravel (bedload) are lifted up by current and bounced along the bed in a hopping motion. </li></ul><ul><li>(ii) Traction: when largest boulders and cobbles (bedload) roll or slide along the bed. </li></ul>traction saltation
  4. 4. <ul><li>(iii) Suspension: very fine particle such as clay and silt (suspended load) are dislodged and carried by turbulence in a fast flowing river. </li></ul><ul><li>(iv) Solution: water flowing within a river channel contains acids (e.g. carbonic acid from precipitation) dissolve the load such as limestone in running water and removed in solution. </li></ul>solution suspension
  5. 5. River erosion. <ul><li>Erosion: wearing away of river bed and bank. </li></ul><ul><li>There are four main process of erosion: </li></ul><ul><li>Corrasion : occurs when the river picks up materials and rubs it along its bed and banks, wearing them away by abrasion, effective during flood. Major method by which river erodes both vertically and horizontally. </li></ul><ul><li>Landforms: potholes. (turbulent eddies in the current can swirl pebbles </li></ul><ul><li>around to form potholes that are hollows in river bed and pebbles are </li></ul><ul><li>likely to become trapped) </li></ul>potholes
  6. 6. <ul><li>Attrition : As bedload moved downstream, boulders collide with </li></ul><ul><li>other material and the impact may break the rock into smaller pieces. In time angular rocks become increasingly rounded. </li></ul><ul><li>(iii) Hydraulic action : The sheer force of the water as the turbulent current hits banks (outside of meander) pushes water into cracks. The air in cracks compressed, pressure increased and in time bank will collapse. </li></ul><ul><li>Cavitation: is a form of hydraulic action caused by bubbles of air collapsing. </li></ul><ul><li>(iv) Solution/corrosion : This process in independent of river discharge and velocity. It is related to chemical composition of water e.g. concentration of carbonic acid and humid acid. </li></ul>
  7. 7. River deposition <ul><li>Deposition: when velocity begins to fall, it has less energy and no </li></ul><ul><li>longer had competence and capacity to carry all its load so largest </li></ul><ul><li>particles, materials begins to be deposited. </li></ul><ul><li>When occur? </li></ul><ul><li>Low discharge during period of low precipitation </li></ul><ul><li>Less velocity when river enter sea or lake. </li></ul><ul><li>Shallow water occurs on inside of a meander. </li></ul><ul><li>The load suddenly increase (debris from landslide) </li></ul><ul><li>River overflow its bank so velocity outside channel is reduced. (resulting in floodplain) </li></ul>
  8. 8. Hjulstrom curve
  9. 9. Hjulstrom curve <ul><li>The Hjulstrøm curve is a graph used by hydrologists to determine whether a river will erode , transport or deposit sediment. The graph takes sediment size and channel velocity into account. </li></ul><ul><li>The curve shows several key ideas about the relationships between erosion, transportation and deposition. </li></ul><ul><li>The Hjulstrøm Curve shows that particles of a size around 1mm require the least energy to erode, as they are sands that do not coagulate. Particles smaller than these fine sands are often clays which require a higher velocity to produce the energy required to split the small clay particles which have coagulated. </li></ul><ul><li>Larger particles such as pebbles are eroded at higher velocities and very large objects such as boulders require the highest velocities to erode. When the velocity drops below this velocity called the line of critical velocity , particles will be deposited or transported, instead of being eroded, depending on the river's energy. </li></ul>
  10. 10. Fluvial landforms <ul><li>Effects of fluvial erosion: </li></ul><ul><li>(a) V-shaped valleys </li></ul><ul><li>A river erode vertically by traction or saltation which resulted in a steep- </li></ul><ul><li>sided valley called a V-shaped valley. </li></ul><ul><li>Steepness of valley sides depend of factors such as: </li></ul><ul><li>Climate: valley are steeper where there is sufficient rainfall. (for mass movement and allow river to transport bedload and erode vertically) </li></ul><ul><li>Rock structure: resistant, permeable rocks such as limestone produce vertical sides. </li></ul><ul><li>Vegetation: it helps to bind soil together and keep the hillslope more stable. </li></ul>
  11. 11. <ul><li>(b) Interlocking spurs </li></ul><ul><li>It forms because the river is forced to follow a winding course around </li></ul><ul><li>the protrusions of the surrounding highland, resulting in spurs interlock. </li></ul>Interlocking spur.
  12. 12. <ul><li>2. Water fall: </li></ul><ul><li>A waterfall form when a river, after flowing over relatively hard rock </li></ul><ul><li>meets a band of less resistant rock flow over the edge of a plateau. </li></ul><ul><li>Over a period of years, the edges of this shelf will gradually break away </li></ul><ul><li>and the waterfall will steadily retreat upstream, creating a gorge of </li></ul><ul><li>recession </li></ul>Havasu fall, Arizona.
  13. 13. <ul><li>(3) Rapids: </li></ul><ul><li>Rapids develop where the gradient of the river bed increases without a </li></ul><ul><li>sudden break of slope (as in a waterfall) or where stream flows over a </li></ul><ul><li>series of gently dipping bands of harder rock. Rapid increase the </li></ul><ul><li>turbulence of a river and hence its erosive power. </li></ul>
  14. 14. Effect of fluvial deposition. <ul><li>Deposition of sediment takes place where there is a decrease in energy </li></ul><ul><li>or an increase in capacity which makes the river less competent to </li></ul><ul><li>transport its load. </li></ul><ul><li>It can occur anywhere from upper course, where boulders may be left, </li></ul><ul><li>to the mouth where fine clays may be deposited. </li></ul><ul><li>FLUVIAL LANDFORMS: </li></ul><ul><li>Floodplains : </li></ul><ul><li>A floodplain is a mostly flat area of land bordering a river subjected to </li></ul><ul><li>periodic flooding. It is made of silts and sands which have been </li></ul><ul><li>deposited over many years by the river. </li></ul>
  15. 15. <ul><li>(2) Levees </li></ul><ul><li>When river overflows its banks, the increase in friction produced by the </li></ul><ul><li>contact with the floodplain causes material to be deposited. The </li></ul><ul><li>coarsest material is dropped first to form a small, natural embankment </li></ul><ul><li>(levee) alongside the channel. During subsequent periods of low </li></ul><ul><li>discharge, further deposition will occur within main channel causing </li></ul><ul><li>bed of the river to rise and the risk of flooding to occur. </li></ul>Floodplains and levees.
  16. 16. <ul><li>(3) Braiding channels: </li></ul><ul><li>For short periods of year, some rivers carry a very high load in relation </li></ul><ul><li>to their velocity e.g. during snow melt periods in Alpine or Arctic areas. </li></ul><ul><li>When a river’s level falls rapidly, competence and capacity are </li></ul><ul><li>reduced, and channel become chocked with material, causing the river </li></ul><ul><li>to braid ( divide into a series of diverging and converging segments) </li></ul>Braided channels.
  17. 17. <ul><li>(4) Delta: </li></ul><ul><li>It is composed of fine sediment which is deposited when a river losses </li></ul><ul><li>energy and competence as it flows into an area of slow moving water </li></ul><ul><li>such as a lake or sea. The shape resembled that of delta, the fourth </li></ul><ul><li>letter of the Greek alphabet ( ) </li></ul><ul><li>Delta provide world’s fertile land, while shallow and frequently changing </li></ul><ul><li>river channels hinder navigation. </li></ul>
  18. 18. <ul><li>There are three types: </li></ul><ul><li>Arcuate (fan-shaped delta) : having rounded, convex outer margin e.g. Nile. </li></ul><ul><li>(b) Cuspate (tooth’s delta) : where material brought down by a river is spread out evenly on either side of its channel. E.g. Tiber </li></ul><ul><li>(c ) Bird’s foot : where the river has many distributaries bounded by sediment and which extent out to sea like the claws of a bird’s foot.e.g. the Mississippi. </li></ul>Arcuate delta e.g. River Nile. Bird’s foot e.g. Mississippi river. Cuspate delta e.g. Tiber .
  19. 19. Meanders: 1 . Due to erosion on the outside of a bend and deposition on the inside, the shape of a meander will change over a period of time. 2. Erosion narrows the neck of the land within the meander. In time, and usually during a flood, the river will cut right through the neck. 3. The river will then take the new, shorter route. The fastest current, called the thalweg , will now tend to be in the centre of the river, and so deposition is likely to occur in gentler water next to the banks. 4. Eventually deposition will block off the old Meander to leave an oxbow lake. The oxbow lake will slowly silt up , only refilling after heavy rain or during a flood.

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