Introduction
Igneous rocks are formed form the cooling of molten rocks. They are crystalline, that is they are made up of crystals joined together. There are many different types of igneous rocks but they fall into two (very) broad categories; intrusive and extrusive. Intrusive rocks are igneous rocks which form at depth. They cool slowly, taking ten's of thousand of years to cool. They have large crystals, ten's of millimetres in size. Extrusive rocks are those which have erupted from volcanoes. They have very small crystals, not visible to the naked eye.
Chemistry
The chemistry of igneous rocks
is quite complicated. It depends on two things; evolution and silica
saturation. In this chapter we will concern ourselves with the effect of
evolution only, the silica saturation will be assumed to be constant.
Igneous rocks evolve as they cool. This process is called differentiation.
The mechanism for this process is as follows:
- Liquid rich in minerals A,B and C
- Remove mineral A. Rock is relatively enriched in minerals B and C
- Remove mineral B. Rock is now completely mineral C
As you can see, if you remove olivine, the rock becomes more enriched in pyroxenes etc. This process continues until only quartz is left. This leads us to the following (simple) classification.
| Rock Type | Basic (unevolved) | Intermediate | Acidic (evolved) |
| Minerals | olivine, pyroxene, amphibole, calcium plagioclase | calcium and sodium plagioclase, with some olivine, pyroxenes and amphiboles | sodium plagioclase, potassium plagioclase and quartz |
| Amount of silica | low high |
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| Amount of Na2O and K2O | lowhigh |
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| Amount of CaO, FeO and MgO | high low |
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Textures & Names
Igneous rocks have many
textures which tell us about their cooling histories and/or chemistry.
In general rocks which have cooled rapidly are fine grained, that is with
grains which are not visible to the naked eye. Rocks which have cooled
slowly have large grains, sometimes as large as several centimetres
across. This size variation arises as grains grow around a nucleus of some
sort, i.e an minute grain. The slower the cooling the more time grains
have to grow and amalgamate. Grains which show their true shape are said
to be euhedral. Grains which show no shape are anhedral.
Using this information, the order of grain growth can be worked out. For
example, a rock may have large euhedral quartz grains, which are
surrounded by anhedral feldspar. The quartz grew first as it had space,
the feldspar then grew around the quartz.
Other features seen are:
- Porphoritic texture - large grains surrounded by much finer grains. This implies that the large grains grew slowly at depth, the magma with the grains in it, then rose up in the crust, cooling much more quickly forming the fine grains (the matrix).
- Exsolution - occurs within grains on certain minerals (pyroxenes and feldspars). This can give an indication of pressure and hence depth.
- Xenoliths - bits of the rock into which the magma intruded
- Cumulate layer - when a mineral grows which is denser than the magma, it will sink to the base of the chamber causing a cumulate layer. Minerals may form from liquid trapped between the grains - interstitial minerals.
| Rock Type | Basic (unevolved) | Intermediate | Acidic (evolved) |
| Minerals | olivine, pyroxene, amphibole, calcium plagioclase | calcium and sodium plagioclase, with some olivine, pyroxenes and amphiboles | sodium plagioclase, potassium plagioclase and quartz |
| Fine Grained Name | Basalt | Andesite | Rhyolite |
| Coarse Grained Name | Gabbro | Diorite | Granite |
Igneous Rock Formations
Igneous rock bodies are either
intrusive or extrusive. Extrusive bodies are lava flows. If these occur
under water they form pillow lavas. On land they can form lava tubes, aa
(pronounced ah-ah and looks blocky) or pahoehoe (which looks ropey). 
Intrusive bodies are shown on the diagram below. 
A dyke is a body which cuts across the country (host) rock. A sill is
parallel to the bedding layers. The baked margin is an area in the country
rock, in contact with the igneous body, which has been thermally
metamorphosed. The chilled margin is the area in an igneous body, in
contact with the country rock, which cooled quicker than the rest of the
rock due to the temperature difference between the magma and the country
rock. These features are not always visible. The scale of these bodies is
from millimetres to tens or even hundreds of metres.
The largest of igneous bodies is a pluton or batholith. These are massive,
hundreds of kilometres in size. The moors of Cornwall and Devon are
outcrops of a massive batholith.
Information provided by: http://www.hill.anorak.org.uk