Intrusive and minor extrusive features of vulcanicity
Intrusive and minor extrusive features of vulcanicity
Intrusive:
Batholith: A large emplacement of igneous plutonic rock, formed by magma cooling deep in the Earth’s crust. Buoyant magma pushes up through the country rock, partially melting it, and then cools. A good example is the Cornubian batholith in south-west England, which has broken through the surface to form the well-known granite structures of Dartmoor and Bodmin moor, among others.
Sill: A tabular sheet intrusion where magma has intruded between older layers of sedimentary rock, beds of volcanic lava or tuff, or even along the direction of foliation in metamorphic rock. Good examples are the Salisbury crags in Edinburgh, which are formed by a sill partially exposed by the ice age.
Dyke: Similar to a sill, except the lava has intruded along cracks and faults in one particular rock type. It cuts across layers, or through one layer or an unlayered rock, rather than intruding along the boundary between layers. A good example is the Kildonan dyke swarm- formed by a single volcanic event located around the Scottish Isle of Arran.
Laccolith: Where magma has been injected between two layers of sedimentary rock, and the pressure of the magma has been high enough to force the overlying strata upwards, creating a dome/mushroom shape on the surface.
Extrusive:
Geyser: Where water works its way about 2000m down into the rock, where due to the close proximity of the magma it is heated up. The pressurized water is now boiling causes it to spray spectacularly out of the geyser vent, as famously seen at Old Faithful in Yellowstone National park. Less well-known Geysers can be dangerous however, as boiling water can be thrown very high and in all direction.
Mudpool: Or mudpots, form in high-temperature geothermal areas where water is in short supply. The little water that is available rises to the surface (as with a geyser) at a spot where it mixes with the soil. The soil is normally rich in volcanic ash,
Intrusive:
Batholith: A large emplacement of igneous plutonic rock, formed by magma cooling deep in the Earth’s crust. Buoyant magma pushes up through the country rock, partially melting it, and then cools. A good example is the Cornubian batholith in south-west England, which has broken through the surface to form the well-known granite structures of Dartmoor and Bodmin moor, among others.
Sill: A tabular sheet intrusion where magma has intruded between older layers of sedimentary rock, beds of volcanic lava or tuff, or even along the direction of foliation in metamorphic rock. Good examples are the Salisbury crags in Edinburgh, which are formed by a sill partially exposed by the ice age.
Dyke: Similar to a sill, except the lava has intruded along cracks and faults in one particular rock type. It cuts across layers, or through one layer or an unlayered rock, rather than intruding along the boundary between layers. A good example is the Kildonan dyke swarm- formed by a single volcanic event located around the Scottish Isle of Arran.
Laccolith: Where magma has been injected between two layers of sedimentary rock, and the pressure of the magma has been high enough to force the overlying strata upwards, creating a dome/mushroom shape on the surface.
Extrusive:
Geyser: Where water works its way about 2000m down into the rock, where due to the close proximity of the magma it is heated up. The pressurized water is now boiling causes it to spray spectacularly out of the geyser vent, as famously seen at Old Faithful in Yellowstone National park. Less well-known Geysers can be dangerous however, as boiling water can be thrown very high and in all direction.
Mudpool: Or mudpots, form in high-temperature geothermal areas where water is in short supply. The little water that is available rises to the surface (as with a geyser) at a spot where it mixes with the soil. The soil is normally rich in volcanic ash,