running water
DESCRIPTION
Running water. 97.2 % oceans 2.2 % ice 0.6 % liquid fresh water most of which is ground water Water is always on the move in the water cycle. Water Cycle. Infiltration = soak in run off - surface flow evaporation = back into the atmosphere transpiration = back into the atmosphere by plant - PowerPoint PPT PresentationTRANSCRIPT
Running water• 97.2 % oceans• 2.2 % ice• 0.6 % liquid fresh water most of
which is ground water• Water is always on the move in
the water cycle
Water Cycle• Infiltration = soak in• run off - surface flow• evaporation = back into the
atmosphere• transpiration = back into the
atmosphere by plant• evapotranspiration - combined
Running water• Run off begins as sheet flow.• How much goes into the ground depends
on the infiltration capacity of the soil• Factors of infiltration
– intensity and duration of rain fall– soil wetness(saturation)– soil texture– slope– vegetation
Running water• Rills - tiny channels • Gullies - larger channels• stream - any running body of water
– sometime called rivers if really large
Stream characteristics• Gradient or slope is the vertical drop of
the stream over a fixed horizontal distance,– The steeper the slope the more energy
available for stream flow.• Cross-sectional shape determines the
amount of drag.– The less drag the faster the water can flow– Size and roughness also influence drag
Stream characteristics• Discharge is the amount of water
flowing past a certain point in a given amount of time– Discharge (meter 3/ second)= – channel width(meters) X depth
(meters) X velocity (meters/second)
Changes downstream• Longitudinal profile - a look at the
stream from head to mouth– gradient decreases downstream– discharge increases downstream– width, depth and velocity increase
downstream• When gradient is high, discharge is
small
Base level• Running water in a stream will erode
downward over its course until it reaches a balance point.
• This balance point is called the base level.
• Base level is the lowest elevation to which a stream can erode.
• Two types of base level
Base level• Ultimate base level - sea level• Temporary ( local) base level - anything
which has the capacity to limit downward erosion.– Lakes, resistant bedrock, or a larger stream
• Kalamazoo River – Ultimate base level the Atlantic ocean– Local base level Lake Michigan
Base level• Base level can be changed.
– Raised base level results is velocity dropping and deposition begins up stream.
– Lowered base level results in velocity increasing and erosion increasing.
• How do you raise base level? Build a dam.
• How do you lower base level? Uplift the land or lower sea level.
Base level• Sooner or later a stream will reach
base level and be neither eroding or depositing just transporting.
• A graded stream is at base level
Stream Erosion• Waters in streams are turbulent. They
whirl and eddy.• The material in streams (sand, gravel,
silt, and clay sized particles, plus dissolved minerals) abrades the streambed and become rounder and smoother with transport. This is called the load.– Potholes are gouged by gravel caught in an
eddy.
Stream Transport• Dissolved load - minerals dissolved by
ground water and added to the stream.
• Suspended load - usually the largest load of a stream. Fine sand, silt and clay sized particles.– How much suspended sediment depends
on velocity of the stream and settling rate of the sediment.
Stream Transport• Bed Load - the material on the stream
bed too large to be carried by suspension.– This is the stuff that does the grinding to
produce downward erosion.• This material moves by rolling, sliding
and saltation.– Saltation is jumping or skipping down
stream
Stream Transport• The ability to carry material is
measured in capacity and competence.• Capacity is the maximum load a
stream can carry. • Competence - the maximum sized
particle a stream can carry. – The greater the stream’s discharge the
greater the capacity and competence.
Stream deposition• When velocity slows the stream can
no longer carry its load.• Particles will be deposited by size
with the largest settling out first.• This sorting explains why particles of
the same size are found together.• Alluvium is the term for all stream
deposited sediments
Stream deposition - channel• Channel deposits - the materials
deposited mid-stream usually sand or gravel in bars.
• Point Bars form in the inside bend of a stream meander.
• Braided streams have bars mid channel. – Merger of two streams with different velocity,– after glacial melting, or– after heavy down pour.
Stream deposition- floodplain• Floodplain - the area adjacent to a
stream that is covered with water during a flood.
• Natural levees flank the stream and are an accumulation of gravel deposited during a flood when the water lost it competence and capacity upon leaving the channel.
Stream deposition- floodplain• Some levees are so high that
tributary streams can’t enter the main stream.
• These streams (Yazoo tributaries ) flow along the flood plain of the larger stream in swampy (back swamp) poorly drained areas.
Stream deposition- Fans and Deltas• When a stream loses its competency
abruptly it will drop its load.• Alluvial fans will form if the
deposition occurs on land. These are fairly steep.
• Delta will form if the deposition occurs under water.These are fairly shallow.
Stream deposition- Fan• Alluvial fans form when a high
gradient stream in a narrow mountain valley enters a broad flat basin.
• The change is gradient is drastic resulting is immediate deposition.
• Coarse material is deposited at the top of the fan while finer material is carried lower.
Stream deposition- delta• Deltas form when a stream enters
a lake or the ocean.
Stream deposition- delta• The main stream will become
sediment choked, so it will seek a higher gradient route to base level.
• It may do so by splitting into branches called distributaries.
Stream deposition- delta• Mississippi River Delta - a bird-foot delta.
– This delta extends far out into Gulf of Mexico .
– Many Smaller sub deltas have grown since the ice age.
• Threat to the Mississippi includes a potential capture and diversion of water further upstream.
• Could spell disaster for New Orleans.
Stream Valleys• Playfair’s law - all streams have a
main trunk, fed by branches and have carved the valley in which they exist.
• Two types of stream valleys– narrow V shaped valleys– wide valleys with flat floors
Stream Valleys - V shape• Characterized by
– downcutting– narrow canyons with steep wall– rapids and waterfalls
• Valley walls undergo weathering and mass wasting at the top to help with the profile.
Stream Valleys - Wide valleys• More common in a graded stream • Erosion shifts from down-cutting to lateral.• Streams flow in floodplain is sweeping
bends called meanders.• Erosion takes place on the outside of the
bend at the cut bank.• Deposition takes place on the in side of
the bend at the point bar• Causes the meander to migrate laterally
and downstream
Stream Valleys - Wide valleys• Sometimes one meander will cut off
another to create a shorter channel• The abandoned meander is called an
oxbow lake.• Eventually the lake fills with
sediment to create a cut off scar• Incised meanders- form when there
is a rapid change in base level.
Drainage networks• All streams drain to an ocean.• The drainage basin is all the land
contributes water to the stream.• A divide is the imaginary line that
separates two drainage basins.• Individual drainage basins have one
of four patterns depending on the material on which they flow.
Drainage Patterns• Dendritic - the most common - tree like
branches emptying into larger trunks• Radial - like spokes on a bike tire draining
the side of an isolated cone or dome.• Rectangular - flowing over jointed rocks
making sharp right angle turns• trellis - also rectangular but looking more
like a trellis with lots of branches.
Stream Piracy - Ahrg!!• Streams erode headward,
downward and laterally.• As Niagara Falls erodes it is doing so
up stream (headward erosion)• When the headward erosion of one
stream breaches the divide it can divert water from a slower stream. This is stream piracy.
Floods and Flood Control• What causes floods? Too much
water from rain or melt water.• Controls include building artificial
levees, dams,channelization (dredging) and better flood plain management (non-structural controls).