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Characteristics of volcanoes

  • A is formed by eruptions of lava and ash.
  • Volcanoes are usually cone shaped mountains or hills.
  • When magma reaches the Earth's surface it is called lava. When the lava cools, it forms rock.
  • Volcanic eruptions can happen at and but not at or .
  • Some volcanoes happen underwater, along the seabed or ocean floor.
Volcano formation
Image caption,
Krakatoa volcano in the Sunda Strait, Indonesia
  • Magma rises through cracks or weaknesses in the Earth's.
  • Pressure builds up inside the Earth.
  • When this pressure is released, eg as a result of plate movement, magma explodes to the surface causing a volcanic eruption.
  • The lava from the eruption cools to form new crust.
  • Over time and after repeated eruptions, the rock builds up to form a volcano.
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Cross section of a volcano

The diagram below shows how magma pushes up between the two plates:

  • The magma chamber is a collection of magma inside the Earth, below the volcano.
  • The main vent is the main outlet for the magma to escape.
  • Secondary vents are smaller outlets through which magma escapes.
  • The crater is created after an eruption blows the top off the volcano.

An eruption occurs when pressure in the magma chamber forces magma up the main vent, towards the crater at the top of the volcano.

Some magma will also be forced out of the secondary vent at the side of the volcano.

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Shield and composite volcanoes

Volcanoes can be described in terms of activity and can be:

  • still active and erupt frequently;
  • dormant (temporarily inactive but not fully extinct);
  • extinct (never likely to erupt again).

Volcanoes can also be described by their shape or type - or .

  • Shield volcanoes are usually found at constructive .
  • They are low, with gently sloping sides.
  • They are formed by eruptions of thin, runny lava.
  • Eruptions tend to be frequent but relatively gentle.
  • Example: Mauna Kea in Hawaii, USA or the Galapagos islands
  • Composite volcanoes are made up of alternating layers of lava and ash (other volcanoes just consist of lava).
  • They are usually found at destructive boundaries.
  • The eruptions from these volcanoes may be a pyroclastic flow rather than a lava flow. A pyroclastic flow is a mixture of hot steam, ash, rock and dust.
  • A pyroclastic flow can roll down the sides of a volcano at very high speeds and with temperatures of over 400掳C.
  • Example: Hekla in Iceland, Mt St Helens in the USA and Mt Kilimanjaro in Tanzania.
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Supervolcanoes

A is a volcano on a massive scale. It is different from a volcano because:

  • it erupts at least 1,000km3 of material, in comparison a large volcano erupts around 1km3;
  • it forms a depression, called a (a volcano forms a cone shape);
  • often has a ridge of higher land around it;
  • erupts less frequently - eruptions are hundreds of thousands of years apart.
Image gallerySkip image gallerySlide 1 of 4, , The stages in the creation of a supervolcano caldera
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Case study: Yellowstone

Image caption,
A hydrothermal feature at Yellowstone

Yellowstone is one example of a supervolcano. Three huge eruptions have happened in the last 3 million years.

The last eruption was 630,000 years ago, and was 1,000 times bigger than the Mount St Helens eruption in 1980.

The large volume of material from the last Yellowstone eruption caused the ground to collapse, creating a depression called a . The caldera is 55 km by 80 km wide.

The next eruption is predicted to have catastrophic worldwide effects.

The supervolcano at Yellowstone is formed because of a volcanic hotspot.

Every year millions of visitors come to see the related features, such as and hot springs. Old Faithful is one example of a geyser.

Potential global impact of a supervolcano

If a supervolcano was to erupt there would be a global catastrophe.

Potential impacts on peoplePotential impacts on the environment
Death and destruction In North America over 100,000 people will be killed instantly due to the blast and pyroclastic event. Breathing ash will kill millions more over time.Ejecta A supervolcano eruption would make most of North America uninhabitable as huge amounts of ejecta would be thrown into the atmosphere. This could include a 40km high ash cloud.
Ash clouds would migrate across the globe, reaching the UK in 5/6 days. Ash falls would bury the soil, clog up machinery, and cause respiratory health problems for people. Lahars, destructive volcanic mudflows, where ash mixes with water in river valleys, would devastate whole communities.Ash The ash thrown into the upper atmosphere will circulate around the globe and could cause a 鈥榙ark summer鈥 鈥 where no sunlight gets through for at least one year. Global temperatures could drop by 3 鈥 5 degrees and remain low for many years.
Food supply - Crops and food supplies would suffer hugely and prices would increase dramatically. Global famine and mass starvation would be inevitable.Climate change Such an eruption would spark climate change that might trigger a mini-ice age. This would be due to the 2 billion tonnes of sulphur dioxide gas thrown into the atmosphere where it would reflecting away solar radiation.
Changing a way of life Homes would be destroyed; air, road and rail travel and transport would grind to a halt, water supplies would be contaminated 鈥 life as we know it would change radically and survival would become increasingly difficult.Ecosystem destruction - Within 100km whole ecosystems would be destroyed. Vegetation would be wiped out disrupting habitats and food webs. Animals would die due to respiratory problems and starvation. Yellowstone is home to 10 - 20 thousand elk and many other species including bison, wolves and brown bears.
Water supplies would be contaminated by ash and sulphur, becoming undrinkable.Natural vegetation- It would take at least 10 years for vegetation to be re-established close to the eruption zone.
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