Editing Geochemistry (section)

===Felsic, intermediate and mafic igneous rocks===
Those rocks that contain the most silica, and on crystallizing yield free quartz, form a group generally designated the "felsic" rocks. Those again that contain the least silica and most magnesia and iron, so that quartz is absent while [[olivine]] is usually abundant, form the "mafic" group. The "intermediate" rocks include those characterized by the general absence of both quartz and olivine. An important subdivision of these contains a very high percentage of alkalis, especially soda, and consequently has minerals such as [[nepheline]] and [[leucite]] not common in other rocks. It is often separated from the others as the "alkali" or "soda" rocks, and there is a corresponding series of mafic rocks. Lastly, a small sub-group rich in olivine and without feldspar has been called the "ultramafic" rocks. They have very low percentages of silica but much iron and magnesia.

Except these last, practically all rocks contain felspars or feldspathoid minerals. In the acid rocks, the common feldspars are orthoclase, perthite, microcline, and oligoclase—all having much silica and alkalis. In the mafic rocks labradorite, anorthite, and bytownite prevail, being rich in lime and poor in silica, potash, and soda. Augite is the most common ferromagnesian in mafic rocks, but biotite and hornblende are on the whole more frequent in felsic rocks.<ref name=EB1911/>

{| class="wikitable"
!rowspan=2 | Most Common Minerals
! Felsic
!colspan=2 | Intermediate
! Mafic
! Ultramafic
|-
! Quartz <br /> Orthoclase (and Oligoclase), Mica, Hornblende, Augite
! Little or no Quartz: <br /> Orthoclase hornblende, Augite, Biotite
! Little or no Quartz: <br /> Plagioclase Hornblende, Augite, Biotite
! No Quartz <br /> Plagioclase Augite, Olivine
! No Felspar <br /> Augite, Hornblende, Olivine
|-
| Plutonic or Abyssal type
| [[Granite]] || [[Syenite]] || [[Diorite]] || [[Gabbro]] || [[Peridotite]]
|-
| Intrusive or [[Hypabyssal]] type
| [[Quartz-porphyry]] || [[Orthoclase-porphyry]] || Porphyrite || [[Dolerite]] || [[Picrite]]
|-
| Lavas or Effusive type
| [[Rhyolite]], [[Obsidian]] || [[Trachyte]] || [[Andesite]] || [[Basalt]] || [[Komatiite]]
|}

Rocks that contain leucite or nepheline, either partly or wholly replacing felspar, are not included in this table. They are essentially of intermediate or of mafic character. We might in consequence regard them as varieties of syenite, diorite, gabbro, etc., in which feldspathoid minerals occur, and indeed there are many transitions between syenites of ordinary type and nepheline — or leucite — syenite, and between gabbro or dolerite and theralite or essexite. But, as many minerals develop in these "alkali" rocks that are uncommon elsewhere, it is convenient in a purely formal classification like that outlined here to treat the whole assemblage as a distinct series.<ref name=EB1911/>

{| class="wikitable"
|+Nepheline and Leucite-bearing Rocks
|-
! Most Common Minerals
! Alkali Feldspar, Nepheline or Leucite, Augite, Hornblend, Biotite
! Soda Lime Feldspar, Nepheline or Leucite, Augite, Hornblende (Olivine)
! Nepheline or Leucite, Augite, Hornblende, Olivine
|-
| Plutonic type
| Nepheline-syenite, Leucite-syenite, Nepheline-porphyry
| Essexite and Theralite
| Ijolite and Missourite
|-
| Effusive type or Lavas
| Phonolite, Leucitophyre
| Tephrite and Basanite
| Nepheline-basalt, Leucite-basalt
|}

This classification is based essentially on the mineralogical constitution of the igneous rocks. Any chemical distinctions between the different groups, though implied, are relegated to a subordinate position. It is admittedly artificial, but it has grown up with the growth of the science and is still adopted as the basis on which more minute subdivisions are erected. The subdivisions are by no means of equal value. The syenites, for example, and the peridotites, are far less important than the granites, diorites, and gabbros. Moreover, the effusive andesites do not always correspond to the plutonic diorites but partly also to the gabbros. As the different kinds of rock, regarded as [[Aggregate (geology)|aggregate]]s of minerals, pass gradually into one another, transitional types are very common and are often so important as to receive special names. The quartz-syenites and nordmarkites may be interposed between granite and syenite, the tonalites and adamellites between granite and diorite, the monzonites between syenite and diorite, norites and hyperites between diorite and gabbro, and so on.<ref name=EB1911>{{EB1911|wstitle=Petrology |inline=1|volume=21|pages=328–333 |first=John Smith |last=Flett}}</ref>