1. The core heats the
molton rock in the mantle
which creates a convection
current.
2. The heated rock
rises to the surface.
3. At the surface convection
currents move the tectonic plates
in the crust.
4.Molton rock cools and flows
back to the core.
3 main plate boundaries
Annotations:
Collison Plate boundries
- E.g: Indo Australian and Eurasion plates
- two continental plates collide and the two plates buckle
- Many Earthquakes
Destructive
when 2 plates colilde one flows under the other (subduction)
e.g. Nazca Plate and South American Plate
Earthquakes and volcanoes occour
constructive
Rising convection currents pull apart
e.g. Eurasion and North American Plate
forming volcanic ridges e.g. Mid-Atlantic RIdge
conservative
Two plates slide past one another
e.g San Andreas Fault California
Earthquakes
Volcanic and earthquake hazards
Earthquake in Kashimer 2005
75 000 dead
2.8 million homeless
75 000 injured
property damage $440 million
Earthquake in California, 1989
up too 12 000 homeless
3757 injured
property damage $10 million
63 dead
volcanoes
shield volcanoes
found on constructive plate boundaries
formed by long thin,runny lava which flows
a long way before it solidifies
gentle sloping sides and a wide base
contains baslaltic magma which is very hot with low
silica and gas content
Erupts frequently but not violently
composite volcanoes
found on destructive plate boundraies
formed by eruptions of viscous sticky lava and ash that don't flow far
have steep slopping sides and narrow base
made up layers of thick lava and ash
contains andesitic magma which is less hot
but contains lots of silica and gas
erupts frequently but not violently includes pyroclastic flow
Managing earthquake and
volcanic hazards
they are very difficult to predict
Annotations:
- when will they be
- where will it be exactly
- how big?
- What other impacts will there be
- how many people live there
- can we evacuate the people
what can help predict earthquakes
Annotations:
- animals and birds fly away
- increase in gas emmisions
- increase in soil temperature
- volcano swelling
- increase in small earthquakes
- water ponds getting warmer
lots needed after an earthquake e.g. volunteers, clean water
Annotations:
- trained volunteers to help clear up debris, injured and dead people
- clean water to prevent spread of disease
- food as often roads, farms, shops and towns have been effected
- radio communication because phones will often not work
- medical people to care for the injured
- a plan to evacuate the area if needed
Case Study: Mount Pinatubo
Volcano 1991
Social Effects
58 000 people were evacuate
from a 30km radius of the
volcano
874 deaths in total
300 killed from collapsing roofs
100 killed by layhars
1.2 million lost their homes
people round the
volcano had to
migrate to shanty
towns in manila
Economic Effects
houses & bridges
destroyed and
needed replacing
Manila airport had to be closed
1991 harvest destroyed
and 650 000 people lost
their jobs
farmland destroyed by falling
ash & pumice unusable for
years
Heavy rainfalll from Typhoon
Yunga causes buildings to
collapse
Enviromental Effects
Fast flowing volcanic mudflow
(Lahars) cause servere river bank
erosion undercut bridges etc.
Volcanic ash blown in all directions
over hundreds of kms, smothering
fields and buildings
Global cooling caused by ash in
the atmosphere of 0.5c
Where?
Island of Luzon in the
Phillipines
SE Asia at the
destructive plate
boundry between
the Eurasion &
Philippine Plates
Why?
Result of Oceanic Philipine plate being
subducted under the lighter continental
Eurasion plate
What?
Composite Volcano exploded in
June 1991 creating Lahars &
massive ash & gas cloud
Managing the hazard
Prevention
75 000 people evacuated up to a 30km radius
US Air Force helicopters helped evacuation
Alert Systems put in place to warn of eruption
Government Shelters
Strategies for long term aid and disease control during evacutions
Prediction
75 000 people were evacuated due to accurate predictions
Set up a permanent monitoring points or use satellite images to look at volcano site for changes in land surfaces
The US Geological Service helped to predict the disaster
No monitoring till April when seisometers were put into place
Prepatation
Evacuation camps built for refugees
Warning sign like gas and steam looked for
Long & short term aid organised especially from the Red Cross and the US
Storage of medical
supplies of food and
water in preparation
for disaster