4b - Rivers

Question 1

Describe what rivers consist of

Answer 1

Upper course (closest to source of river)
Middle course
Lower course (closest to mouth of river)
The path of a river as it flows is called a course

Question 2

Describe the characteristics of the upper course of a river

Answer 2

Steep gradient, steep sides, mountainous relief
Narrow, shallow channel with less sediment loads
More resistant geology

Question 3

Describe the characteristics of the middle course of a river

Answer 3

Medium gradient
Lower altitude
Gently, sloping valley sides
Wider, deeper channel

Question 4

Describe the characteristics of the lower course of a river

Answer 4

Gentle gradient
Very wide, almost flat valley, often made from alluvium deposits
Very wide, deep channel

Question 5

Describe the erosion present in the river courses

Answer 5

In the upper course, vertical erosion is dominant whereas in the lower course, lateral erosion is dominant

Question 6

State the river landforms formed in the river courses

Answer 6

Upper course: interlocking spurs, V-shaped valleys, waterfalls
Lower course: flood plains, levees, meanders, oxbow lakes, deltas

Question 7

How are waterfalls formed?

Answer 7

Rivers flow over an area of hard rock followed by an area of softer rock
The softer rock is eroded faster leaving a step in the river
As the water goes over the step it erodes more of the softer rock and a steep drop is created - the waterfall
The hard rock eventually becomes undercut by erosion, becoming unsupported and collapses
The collapsed rocks are swirled around at the foot of a waterfall where they erode the softer rock creating a plunge pool
Over time, more undercutting causes the waterfall to retreat

Question 8

How are interlocking spurs formed?

Answer 8

In the upper course, most of the erosion is vertical erosion creating steep sides V-shaped valleys
The rivers aren’t powerful enough to erode laterally so they so they wind around the hillsides that stick out into their paths on either side
The hillsides that interlock as the river winds are interlocking spurs

Question 9

How are meanders formed?

Answer 9

The flow of water is fastest & strongest on the outside of the bend because the river channel is deeper therefore more erosion takes place on the outer bank forming river cliffs
The velocity and force is slower on the inside of the bend as the river channel is shallower so eroded material is deposited forming slip-off slopes

Question 10

How are ox-bow lakes formed?

Answer 10

Erosion causes the outside bends of a neck to get closer until there’s only a small bit of land left between the bends
The river breaks through this land, usually through a flood, and the river flows along the shortest course
Deposition eventually cuts off the meander forming an ox-bow lake

Question 11

How are levees formed?

Answer 11

When rivers flood, water overflows the channel so it loses velocity and deposits sediment, first the larger & heavier sediment then smaller.
Over time this sediment builds up into natural embankments forming levees

Question 12

How are deltas formed?

Answer 12

Rivers are forced to slow down when they meed the sea causing them to deposit the material they’ve been carrying
If the sea doesn’t wash away the material it builds up, due to increased rates of deposition, and the channel gets blocked, this forces the channel to split up into lots of smaller rivers called distributaries
Eventually, the material builds up so much that low-lying areas of land called deltas are formed

Question 13

How are floodplains formed?

Answer 13

Erosion gradually removes any interlocking spurs, creating a wide & flat area on either side of the river
Deposition occurs during a flood, friction causes the river to lose speed and energy
As the material is deposited over a wide area, the floodplain gradually gets higher

Question 14

As you go downstream, what happens to discharge, erosion, velocity, gradient & sediment and why?

Answer 14

Discharge increases - more tributaries are joining the river
Lateral erosion increases - as the gradient decreases the channel width increases faster than the depth
Velocity increases - as the river becomes smoother & larger, friction is reduced
Gradient reduces - less resistant sedimentary rocks as opposed to more resistant rock in upper course
Sediment load becomes smaller & smoother - due to abrasion and attrition

Question 15

Define floodhydrographs, discharge, lag time & base flow

Answer 15

Flood hydrographs shows how a drainage basin responds to rainfall
Discharge is the amount of water passing through a specific point in the river
Lag time is the time difference between peak discharge and peak rainfall
Base flow is the normal river level

Question 16

Relating to flood hydrographs what are some flood risk factors?

Answer 16

High discharge - large gap between base flow and peak discharge
Short lag time - suggests water is reaching channel quickly which could cause flash floods

Question 17

Describe the physical conditions of the River Severn

Answer 17

Rises in mid Wales, flows east into England and then south into Bristol
Has excessive rainfall due to Atlantic depressions
Its upper course flows over resistant metamorphic rocks resulting steep gradients (contains V-shaped valley)
Its lower course flows over much more easily eroded clay, sands etc (contains meanders)
High discharge due to many tributaries joining the Severn
Antecedent conditions of 140mm rainfall in a few hours (highest in 100 years) making the ground saturated, increased run off

Question 18

Describe the human conditions of the River Severn

Answer 18

In Tewksbury there are lots of bridging points settlements increasing vulnerability
Urban areas and development have resulted in more impermeable surface so increased run-off and reduced lag time
This has been carried out by deforestation, also increasing surface run-off

Question 19

Explain when the River Severn flooded and its repercussions?

Answer 19

In July 2007, Gloucestershire flooded by River Severn in Tewksbury
0.9m of flood water in the town
50,000 homes without power, 420,000 without running water
£140,000 damage for local council

Question 20

Why is there increased risk in Tewksbury?

Answer 20

Continuous Atlantic depressions crossing the UK, more frequent and stronger storms, due to climate change
Increased population puts pressure on housing resulting in more building on flood plains
More urban development means more impermeable surfaces and thus more surface run-off

Question 21

How does geology/soil affect flooding?

Answer 21

Impermeable igneous rocks/ impermeable thin, clay soil = surface run off = shorter lag time = more discharge = flood

Permeable sedimentary rocks/ permeable thick, sandy soil = more infiltration = longer lag time = less discharge = no flood

Question 22

How does slope and drainage basin affect flooding?

Answer 22

Steep slope = quicker surface run-off = short lag time = more discharge = flood
Gentle slop = more infiltration, slower surface run-off = long lag time = less discharge = no flood

Small drainage basin = rainfall reaches river channel quickly
Large drainage basin = rainfall reaches river channel slowly

Question 23

How do antecedent conditions affect flooding?

Answer 23

Lots of recent rainfall = saturated soil = more surface run-off = short lag time = more discharge = flood

Previous dry conditions = more infiltration into dry soil = long lag time = less discharge = no flood

Question 24

How do deforestation & urbanisation affect flooding?

Answer 24

More impermeable surfaces = more run off = short lag time = more discharge = flood
Deforestation = less interception & uptake = more run off = short lag time = more discharge = flood

Question 25

State some hard and soft engineering methods for rivers

Answer 25

HE: flood walls, embankments, flood barriers
SE: flood plain retention, river channel restoration

Question 26

How do flood walls work?

Answer 26

High wall (often concrete) along river channel
One off cost
Long lifespan
Protects urban areas with limited free space usually
Disperses water fast, but creates flood risk downstream

Question 27

How do embankments work?

Answer 27

Like walls, often further back from channel
Tend to be earth and grass, blending in
Expensive but people can live near rivers
If they burst cause flash floods
Increases flood risk downstream

Question 28

How do flood barriers work?

Answer 28

Expensive, regular maintenance required
Some are demountable but are ugly
Some are permanent, stopping water flow

Question 29

How does flood plain retention work?

Answer 29

Protects/preserves natural flood plains on stretches
Slows down flow of water reaching areas of economic importance, lets river deposit sediment, creating less overland flow
Intentional flooding
Restore surfaces to shrubs & grass, infiltration
Prevents building, development

Question 30

How does river channel restoration work?

Answer 30

Rebuilds meanders to lengthen river and slow water down
Lowers river banks so rivers flood park land not housing
Take concrete away and replace with sediment, trees - infiltration
Natural look