1. Hydrosphere

2. Atmospheric Water 0.001%
Ice 2.15%
Soil water 0.005%
97.2%
Ground Water 0.62%

3. Ice storage
Precipitation
condensation
Evapotranspiration
Evaporation
Throughflow
Run off
Infiltration
Ground water
Water Table
Percolation

4. Hydrological Cycle
Evaporation: The transfer of water from the sea to the air as water vapour.
Condensation: Water vapour (gas) changes back into water (liquid). It forms
small droplets which are visible as clouds.
Precipitation: Water falls to earth as either liquid (rain) or in a frozen state
(snow, hail).
Stream / Surface Run Off: Most water returns to the sea in the form of
rivers.
Evapotranspiration:
Transpiration: The transfer of water from plants to the air as water vapour.
Ground water Flow: Some water returns to the sea as groundwater through soil
and rocks.
Infiltration: The point at which rainfall seeps into soil.
Percolation: The seepage of water downwards through rocks.
Throughflow: The movement of water downwards through soil back to the sea.
Groundwater Zone: Storage area for water which is slowly released back to the sea via springs and rivers.

5. River Basins
Aims
Describe and explain the formation of key features of a rivers course with reference to specific erosional processes.

6. RIVERS

7. The Drainage Basin
The basic system of surface drainage is known as a river basin. This consists of a complex interaction of components which include rainfall, channel run – off , surface streams, soils, slope, solar energy, groundwater storage, evaporation from surface and evapotranspiration from vegetation. The system returns water to the oceans and seas as part of the hydrological cycle.

8. River Basin Confluence of River Clyde and tributary Flood plain
Watershed of River Clyde
(boundary between basins)
Source of River Clyde
Tributary
of River Clyde
Confluence
of River Clyde
and tributary
Flood plain
Mouth of
River Clyde
Estuary of
River Clyde
Sea

9. THE RIVER MODEL Source of river Upper Course Middle Course Lower
Aims
Describe the physical characteristics of a river and its valley
Explain the formation of waterfalls, Vshaped valleys, meanders and oxbow lakes.
Upper
Course
Middle
Course
Lower
Course

10. Leave a space between each to draw a picture of the types of erosion.
How rivers erode
HYDRAULIC ACTION / Water and air are forced into cracks on the river bank, exerting a pressure. When this process is repeated many times it causes erosion.
ABRASION The material carried in the river wears away the river bed
ATTRITION As the pebbles carried by the river crash into each other,they become smaller and rounder
SOLUTION The water in the river dissolves the minerals in the rocks
Leave a space between each to draw a picture of the types of erosion.

11. How rivers transport Traction Suspension Saltation Solution
Rolling stones along the river bed.( needs lots of energy)
Traction
Suspension
Clay sized particles are carried along by the river flow
river flow
Saltation
Sand sized particles
bounce along the riverbed
Solution
Some minerals are dissolved
by the riverwater

12. Upper Course

13. Middle Course

14. Lower Course

15. River features Slope usually steep quite steep gentle Width narrow
Characteristics
Upper Course
Middle Course
Lower Course
Slope
usually steep
quite steep
gentle
Width
narrow
quite wide
wide
Depth
shallow
quite deep
deep
Straightness
winding
meandering
big meanders
small+
rounded
Type of load
large/small
angular
medium/small
rounded
Main work
erosion
transportation
Transportation
transportation
deposition
Valley width
narrow
quite wide
wide

16. FEATURES OF THE UPPER COURSE
V-SHAPED VALLEYS WITH INTERLOCKING SPURS
POT HOLES ON RIVER BED
WATERFALLS AND RAPIDS

17. Upper Course
In the upper course of the river the gradient is very steep and the river when flooded is fast flowing causing hydraulic action. The sides of the valley are steep and the main work is erosion.
The erosion process is greatest during periods of heavy rainfall as the river has more energy to affect the bedload as material is transported either by being rolled (traction) and bounced (saltation).
Upper course is also affected by climate (freeze – thaw), rock types (soft & hard), local vegetation and slightly acidic rain (corrosion) causing a chemical reaction which erodes away rock.

18. Interlocking spurs are fingers of hard rock that the river cannot erode, so it flows around them.
Potholes are holes eroded in the river bed by stones being spun in the water (abrasion)

19. So how does a v-shaped valley form. 1
So how does a v-shaped valley form? 1. Vertical erosion (in the form of abrasion, hydraulic action and solution) in the river channel results in the formation of a steep sided valley 2. Over time the sides of this valley are weakened by freeze thaw weathering processes and continued vertical erosion at the base of the valley 3. Gradually mass movement of materials occurs down the valley sides, gradually creating the distinctive v-shape. 4. This material is then gradually transported away by the river when there is enough energy to do so. As the river flows through the valley it is forced to swing from side to side around more resistant rock outcrops (spurs). As there is little energy for lateral erosion, the river continues to cut down vertically flowing between spurs of higher land creating interlocking spurs

20. So how does a v-shaped valley form. 1
So how does a v-shaped valley form? 1. V________ erosion (in the form of a________, h____________ action and solution) in the river channel results in the formation of a steep sided valley 2. Over time the sides of this valley are w____________ by f________ t_________ w_____________ processes and continued vertical erosion at the base of the valley 3. Gradually m_______m____________ of materials occurs down the valley sides, gradually creating the distinctive v-shape. 4. This material is then gradually transported away by the river when there is enough energy to do so. As the river flows through the valley it is forced to swing from side to side around more resistant rock outcrops (spurs). As there is little energy for lateral erosion, the river continues to cut down vertically flowing between spurs of higher land creating interlocking spurs

21. Key Term Check V-shaped Valley - a valley which resembles a 'v' in cross section. These valleys have steep sloping sides and narrow bottoms. Interlocking Spur - spurs are ridges of more resistant rock around which a river is forced to wind as it passes downstream in the upper course. Interlocking spurs form where the river is forced to swing from side to side around these

22. Waterfall formation

23. WATERFALL
RETREATS . .
UPSTREAM . .
OVERHANG
PLUNGE
POOL
UNDERCUTTING
OF SOFT ROCK

24. Picture Paragraph
The river will slowly undercut the hard rock by eroding the soft rock underneath it.
This is enhanced by the swirling of broken rock in the plunge pool underneath the over hang.
The combined effect of falling water and the swirling rock erodes downwards – abrasion – and backwards Hydraulic action.
As the overhang gets larger and protrudes further it will collapse under is own weight.
The rock from the overhang will further erode the plunge pool.
Repeated overhangs and collapses over time will result in a narrow, steep sided gorge.

25. 1.Continuous erosion by the river will see the gradual undercutting of the slower eroding hard rock by the quickly eroding soft rock.
2.This is enhanced by the swirling of broken rock (eroded rock) in a plunge pool underneath an overhang.
3. The combined effect of the falling water and swirling rocks is to erode downwards – abrasion – and backwards- Hydraulic Action.
4. As the overhang gets larger and protrudes further it will eventually collapse under its own weight to form a new cliff.
5. The rock from the collapse will then be used to erode the resulting cliff and enlarge the plunge pool.
6. Repeated over time a series of overhangs and collapses occur, resulting in a steep sided & narrow gorge being formed.

26. FORMATION OF A WATERFALL
1.Continuous erosion by the river will see the gradual u_______________ of the slower eroding hard rock by the quickly eroding soft rock.
2.This is enhanced by the s_____________ of broken rock (eroded rock) in a p_________ p__________ underneath an o_______________.
3. The combined effect of the falling water and swirling rocks is to erode downwards – a_________________ – and backwards- H_____________ A_____________.
4. As the overhang gets larger and protrudes further it will eventually c____________ under its own w___________ to form a new cliff.
5. The rock from the collapse will then be used to erode the resulting cliff and enlarge the p__________ ___________.
6. Repeated over time a series of overhangs and collapses occur, resulting in a steep sided & narrow g________ being formed.

28. MEANDERS Meanders Flood plain
© Used with the permission of the Geological Survey of Canada
Available at

29. NARROW MEANDER NECK
FUTURE
OX-BOW LAKE

30. tributaries V shaped valley Steep Valley sides meander ox-bow lake
Flood
plain
Reproduced with the permission of the Controller of HMSO © Crown Copyright NC/02/15232