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1
River Processes and Morphology
A Case Study of the Souteyran valley
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General Information: The Massif Central, contains a landscape
of enormous variety characterised by a number of distinctive landforms.
Water is an important and dynamic component of this landscape system.
The physical geography of the Massif Central means that the region forms a vast watershed from which rivers flow to the Mediterranean, and the Atlantic coasts.
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General Information (Cont) The Massif is well watered. Lozère has more
than 2700 km of water courses. River management is an important aspect of
water control and conservation in the Massif. Much of the management in the Cévennes is
entrusted to the National Park Good management can only be achieved by
gaining a full understanding of the physical processes acting within river channels
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Specific Information: The Souteyran Valley lies along the southern slopes
of Mont Lozère. It contains two rivers, the Souteyran and Rieumalet.
Both of these flow into the Tarn at Le Pont de Montvert.
The rivers are characteristic of upland streams which drain a granite and peat area.
Both rivers are important to the valley communities: The Eagle's Nest relies upon them for its water supply as do Finiels and Prat Souteyran.
Both rivers flow continuously and much of this flow can be attributed to a slow release from stores held high up on Mont Lozère. These are peat bogs that play an important role in the basin hydrological cycle.
The Hydrological Cycle:
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What is a Drainage basin?? An area of land drained by a river and
its tributaries. It is the catchment area from which a
river system obtains its supplies of water.
It can be described as an open system with inputs, transfers, storage and outputs.
Drainage Basin System:
Throughfall
Interception
Transpiration
Percolation
Evaporation
Groundwater Storage
Infiltration
Vegetation Storage
Surface Storage
Soil water storage
Precipitation
Surface Runoff
Throughflow
Baseflow
Channel Flow
Inputs
Storage
Transfers
Outputs
KEY:
In Summary:
The dominant movement of water down the valley slopes on Mont Lozère is at or just below the surface.
The soil is saturated quickly and large volumes of water go rapidly into the river channel at the valley floor.
Therefore this area is prone to dramatic flooding.
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Rainfall (mm) Discharge (m3/s)
Storm Hydrograph(3rd – 6th October 2001)
Lag Time
Peak Rainfall
Peak Discharge
Storm Hydrograph(Souteyran 17th – 30th October 2011)
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Rainfall (mm) Discharge (m3/s)
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The Results of the Storm!
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Aims: To Investigate the downstream
changes within the river channel and to account for the changes which take place.
To investigate if the river Souteyran is a ‘model’ river.
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Map of StudySites: Sit
eNo.
Distance Downstrea
m (km)
Altitude(m)
1 00 14401440
2 0.80.8 13401340
3 1.051.05 13101310
4 1.951.95 12201220
5 2.22.2 12001200
6 3.753.75 10601060
7 3.753.75 10601060
8 3.83.8 10501050
9 4.454.45 10201020
10 6.26.2 910910
Key:
- Study Site
- River
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WHAT CAN WE MEASURE
?
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Cross Section Measurements:
Present Flow Width
Bank Full Width
Present Flow Depth
Bank Full Depth
Channel Width (Present flow and bank full) (m)
Channel Depth (Present flow and bank full) (m)
Wetted perimeter (m)
What will happen to these channel variables as you move downstream and why?
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Velocity (m/s) How do we measure velocity?
0.40.3
0.2
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Slowest flow at the bottom due to friction from bed and banks
Less fast on surface due to wind resistance
Greatest velocity where friction is least (away from bed, banks and surface
How will velocity change as you move downstream?
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Changes in river characteristics downstream: Hypotheses
FrictionChannel RoughnessVelocityChannel WidthChannel DepthCross Sectional AreaDischargeSediment SizeAngularity of BedloadConductivityChannel Gradient
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In Summary:
The upper course:More turbulenceMore frictionMore angular bedloadLarger bedload Steepest gradient
The lower course:Higher dischargeHigher velocityHigher hydraulic radiusGreatest cross sectional areaConcav
e Profile
A model river should have the following characteristics but will the Souteyran show these characteristics?