Plate Tectonics (OCR GCSE Geography B)
Revision Note
Written by: Bridgette Barrett
Reviewed by: Jenna Quinn
Structure of the Earth
Four main layers form the structure of the Earth:
Inner core: This layer is about 1400km in diameter. It is a solid and dense layer composed of iron and nickel with temperatures of about 5500°C
Outer core: The outer core is about 2100km thick, a semi-molten metal layer with temperatures between about 5000-5500°C
Mantle: About 2900km thick, a semi-molten layer which is less dense than the outer core
Crust: Made up of two types of crust (continental and oceanic), the thickness varies
Structure of the Earth Diagram
Crust
There are two types of crust:
The oceanic crust is thinner (5-10km) but heavier and denser
The continental crust is thicker (25-90km) but is older and lighter
Oceanic crust is continually being created and destroyed as a result of plate movement
This happens because the oceanic crust is denser and so subducts under the continental crust
As a result continental crust is much older than oceanic crust because it isn't destroyed
Plate tectonics
The crust is broken into a number of tectonic plates
Distribution of Plate Boundaries Map
The tectonic plates move on top of the semi-molten mantle below
Tectonic theory once stated the movement of the plates was the result of convection currents in the mantle
Current theory is called ridge push and slab pull theory which suggests that the movement is caused by:
Ridge push - the new crust forming at the constructive boundary which then pushes the older crust away
Slab pull - the weight of the denser oceanic plates subducting and dragging the rest of the plate along
Diagram of Ridge Push and Slab Pull
A plate boundary or margin is where two plates meet
Plate Boundaries
Earthquake distribution
Earthquakes occur at all types of plate boundaries
Most occur along the Pacific 'Ring of Fire' (approximately 90%)
Distribution of Earthquakes Map
Volcano distribution
Most volcanoes occur at constructive and destructive plate boundaries
The majority of active volcanoes (approximately 75%) are located around the rim of the Pacific Ocean called the 'Ring of Fire'
Hotspots occur away from plate boundaries and are plumes/columns of magma which escape through the Earth's crust
Distribution of Active Volcanoes Map
Types of plate boundary
Volcanic eruptions and earthquakes most commonly occur at or near plate boundaries
There are four main types of plate boundaries:
Constructive
Destructive
Conservative
Collision
Constructive plate boundary
At a constructive boundary the plates are moving apart
The Mid-Atlantic Ridge is an example of a constructive plate boundary
Both volcanic eruptions and earthquakes can occur at this type of plate boundary
Constructive Plate Boundary Map
Constructive plate boundary
Destructive plate boundary
At a destructive plate boundary the plates are moving together
The denser, heavier oceanic plate subducts under the lighter, less dense continental plate
The boundary between the Nazca plate and the South American plate is one example
Both volcanic eruptions and earthquakes occur at this type of plate boundary
Destructive Plate Boundary Diagram
Collision boundary
At a collision boundary two continental plates are moving towards each other
They are less dense than the mantle below them so they do not subduct
The crust is forced upwards forming fold mountains such as the Himalayas
At a collision boundary there are no volcanoes but earthquakes do occur
Collision Plate Boundary Diagram
Conservative boundary
At a conservative boundary the plates move past each other in opposite directions or in the same direction at different speeds
Earthquakes are the only hazard at this type of boundary
Conservative Plate Boundary Diagram
Worked Example
Study Fig. 3, a map showing the global distribution of earthquakes. Describe the pattern of global earthquake distribution
(3 marks)
Figure 3
Answer
Earthquakes are distributed in lines/ belts (1)
In the middle of oceans (1)
Along the edge of continents (1)
Along the West coast of the US (1)
Examiner Tips and Tricks
When describing the distribution of hazards from a map ask yourself the following questions:
What is the general pattern?
Are they inland or coastal?
Use map features to help with your description: place names, compass rose, latitude and longitude.
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