Igneous Rock Identification

Igneous Rocks

Igneous rocks are rocks which solidify from molten material (magma). Cooling of the magma can occur beneath the surface (plutonic) or on the surface (volcanic). Igneous rocks can be identified by the determination of the composition and texture of the rock. Once these two characteristics have been identified, the Igneous Rock Identification chart is used to identify the rock name.

Igneous Rock Identification Chart

Felsic Intermediate Mafic Ultramafic
Pegmatitic Granite Pegmatite Diorite Pegmatite Gabbro Pegmatite  
Phaneritic Granite Diorite Gabbro Dunite
Aphanitic Rhyolite Andesite Basalt  
Porphyritic Rhyolite Andesite Basalt  
Glassy Obsidian Basaltic Glass  
Vesicular Pumice Scoria  
Pyroclastic Volcanic Tuff  


Composition of igneous rocks is properly identified by determination of the rock's chemical composition. This, however, requires chemical equipment and apparatus that is unavailable in this lab. Fortunately determination of the exact chemical composition is not necessary. Color is often an indicator of the composition of a rock or mineral and can be effectively used to identify the composition of most igneous rocks. Light colors, including white, light gray, tan and pink, indicate a felsic composition. Felsic compositions are rich in silica (SiO2). Dark colors, such as black and dark brown, indicate a mafic or ultramafic composition. Mafic compositions are poor in silica, but  rich in iron  (Fe) and magnesium (Mg). Intermediate compositions have an intermediate color, often gray or consisting of equal parts of dark and light mineral . Beware that even though an igneous rock may have a felsic composition (light color), the rock can contain dark colored minerals. Mafic rocks may contain light colored minerals as well. As mentioned above, the composition of most igneous rocks can be identified using this system, formally known as the Color Index. However, there are exceptions. The two most notable are obsidian and dunite. Obsidian is volcanic glass which erupts as a lava flow. Most obsidian is felsic in composition, yet typically it will have a very dark color (dark brown to black). Dunite has an ultramafic composition yet is apple green to yellowish green in color. Dunite is composed almost entirely of the mineral olivine which usually contains both iron and magnesium.


The texture of an igneous rock does not refer to the roughness or smoothness of the surface. Textures are based primarily on crystal size. Pegmatitic texture is composed of very large crystals (larger than 2-3 cm). Phaneritic texture is composed of crystals which are large enough to see but smaller than pegmatitic texture, and the entire rock is composed of crystals. Aphanitic texture is a fine grained texture but the crystals are too small to see. Porphyritic texture is composed of crystals of two different sizes. Typically the large crystals (phenocrysts) are visible while the smaller crystal are not (referred to as groundmass). Glassy texture is the most readily recognized. The rock is composed entirely of glass. Few, if any, crystals will be visible. Vesicular texture is formed when lava solidifies before gases are able to escape. The result is a "bubbly" appearance. Lastly, pyroclastic texture is composed of volcanic fragments. These fragments or clasts can be very fine (ash) or coarse (lapilli) or very coarse (bombs and blocks).

Sample Identification

On each of the following pages you will find an image of a rock and a Igneous Rock Identification Chart. Identify the composition by identifying the color and determine the texture by examining the crystal sizes that are present. Once this is done the rock name is easily determined using the Classification of Igneous Rock chart. Click each answer, then check to see if you have correctly identified the rock sample.

Select a Sample to Identify:

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