Rivers, Floods and Management: River Drainage and Storm Hydrograph
Descripción
A Levels (Physical Geography-AS) Geography Mapa Mental sobre Rivers, Floods and Management: River Drainage and Storm Hydrograph, creado por Andrew_Ellinas el 01/04/2014.
Rivers, Floods and Management:
River Drainage and Storm
Hydrograph
What is River Discharge?
The volume of water in a
channel passing a particular
point in a given period of
time.
Values are expressed in cumecs (cubic
metres per second)
The calculation is: discharge (m3 per second)
= cross-sectional area (m2) x velocity (metres
per second)
What Factors Affect River Discharge?
Distance Downstream: In humid environments, river
discharge increases downstream. Main reason for
increase in water are caused by tributaries joining the
main river.
Climatic Characteristics: Snowfall results in time delay as it is being
stored for a long time until snowmelt happens and there is a sudden
surge in discharge. Temperature affects evaporation rates and
vegetation growth
Land Use: Afforestation reduces discharge and make it more constant. Urbanisation increases
discharge because water is transferred rapidly over impermeable surfaces such as tarmac-and
through pipes and sewers.
Water Abstraction (Removal): This is for domestic use and
the irrigation of crops, this reduces discharge. This can be
seasonal, with greater demand for water in summer months.
Channel Modification: Constructing a reservoir regulates the discharge and makes it
more constant. The channel itself might also be modified to reduce flood risk e.g. channel
straightening and enlargement tend to increase discharge.
The Storm Hydrograph
This is a graph that shows the
discharge of a river following a
storm event