Igneous Rocks Chapter 3 PDF

Summary

This document provides an overview of igneous rocks. It explains the formation, classification, and various types of igneous rocks, including their mineral composition and textures. Useful for understanding the geological processes related to igneous rock formation, and for academic research or general knowledge.

Full Transcript

PETROLOGY
▪Definition of Terms
▪Classifications of Rocks
TOPICS ▪Origin and Occurrence of Rocks
▪Engineering Importance of Rocks

PETROLOGY
- the branch of geology that deals with formation
of rocks, their classification and occurrence
ROCK
Definition of Terms - naturally occurring solid aggregates or
masses of minerals, mineraloids, or organic
material that make up the Earth’s crust.

https://museum.wales/curatorial/natural-sciences/petrology/

MINERAL - a naturally occurring inorganic element or compound
having an orderly internal structure and characteristic chemical
composition, crystal form, and physical properties.
MINERALOID - a naturally occurring, inorganic solid that does not
exhibit crystallinity. It may have the outward appearance of a mineral,
but it does not have the "ordered atomic structure" required to meet Classifications of Rocks
the definition of a mineral. Some mineraloids also lack the "definite
chemical composition" required to be a mineral.
Organic material - anything that was alive and is now in or on the
soil.
https://www.sciencefacts.net/igneous-rocks.html https://longacresranch.org/petrology-science-rocks/ https://www.sciencefacts.net/sedimentary-rocks.html

https://www.sciencefacts.net/metamorphic-rocks.html https://longacresranch.org/petrology-science-rocks/

Origin of Igneous Rocks
Igneous rocks are formed when molten material from
within the Earth, called magma, cools down and solidifies
forming crystals. Extrusive

Igneous rocks are characterized by an interlocking
crystalline texture.
https://geologyglasgow.org.uk/minerals-rocks-fossils/igneous-rocks/
https://grade8science.com/5-1-1how-do-rocks-form/

Intrusive

https://makeagif.com/gif/igneous-rocks-CFBfY8
Classifications of Igneous Rocks Classifications of Igneous Rocks
Based on Mode of Occurrence Based on Mode of Occurrence
Intrusive Igneous Rocks Intrusive Igneous Rocks
- formed by the crystallization of the magma within the Earth’s crust - formed by the crystallization of the magma within the Earth’s crust
Extrusive Igneous Rocks Intrusive Rock Type Depth inside the Earth Rate of Cooling Texture Examples
- formed by the crystallization of the magma as it exits as lava and cools Coarse Granite
above (or very near) the Earth's surface. Plutonic 7 – 10 km Very slow grained Syenite
greater than 5 mm Gabbro
in diameter)
Medium Microgranite
Hypabyssal grained
Up to 2 km Slow Porphyry
(Sub-volcanic) between 5 to 1 mm Dolerite
in diameter

Plutonic Rocks Examples Hypabyssal Rocks Examples

Porphyry
Microgranite

Granite Syenite

https://www.sandatlas.org/porphyry/
https://rocksminerals.flexiblelearning.auckland.ac.nz/rocks/syenite.html

https://www.geologypage.com/2019/05/granite-rocks.html
https://www.geologypage.com/2019/05/granite-rocks.html

Gabbro Dolerite

https://rocksminerals.flexiblelearning.auckland.ac.nz/rocks/syenite.html
https://rockidentifier.com/wiki/Dolerite.html

Processes that expose intrusive rocks on the Earth’s surface
DENUDATION – erosion of the overlying strata and therefore
uplifting the underlying ones.
TECTONIC ACTIVITY – movement of the Earth’s tectonic plates

https://investingnews.com/daily/resource-investing/base-metals-investing/copper-investing/copper-porphyry-takeover-target/
Classifications of Igneous Rocks Volcanic Rocks Examples
Rhyolite
Based on Mode of Occurrence
Obsidian
Extrusive Igneous Rocks
- formed by the crystallization of the magma as it exits as lava and cools
above (or very near) the Earth's surface.
Intrusive Rock Type Location Rate of Cooling Texture Examples
https://www.amazon.com/Raw-Rhyolite-Igneous-Rock-Specimen/dp/B083T9DZ28

Fine Obsidian
On the Earth’s grained
Volcanic Very fast Pumice
surface Less than 1 mm in Rhyolite
http://geologylearn.blogspot.com/2015/03/obsidian.html

diameter)
Pumice

https://geologylearn.blogspot.com/2015/03/pumice.html

Classifications of Igneous Rocks Examples of Felsic (Acidic) Rocks
Based on Chemical Composition
Intrusive Rock
Silica content Major mineral content Color
Type Microgranite
Quartz
Felsic (Acidic) > 66 % Alkali feldspar
Light
Biotite
Intermediate 55 – 66 % Alkali feldspar Light to gray https://www.virtualmicroscope.org/content/riebeckite-microgranite

Hornblende
Magnesium
Granite
Mafic (Basic) 45 – 55 % Iron Black
Plagioclase feldspar Syenite
Pyroxene
Olivine
Ultrabasic < 45 % Magnesium
Black to Olive green
Iron

https://www.igscountertops.com/countertop-glossary/
https://geologyscience.com/rocks/igneous-rocks/syenite/

Examples of Felsic (Acidic) Rocks Examples of Intermediate Rocks

Rhyolite Diorite

https://www.sciencephoto.com/media/1148500/view/diorite

Monzonite Andesite

https://www.gemrockauctions.com/learn/a-z-of-gemstones/andesite

https://www.sandatlas.org/monzonite/
https://geology.com/rocks/pictures/rhyolite-specimens.jpg
Examples of Mafic Rocks Examples of Ultramafic Rocks

Diabase Komatiite

https://www.alexstrekeisen.it/english/vulc/komatiites.php

https://www.sandatlas.org/diabase/

Basalt Gabbro Harzburgite Kimberlite

https://rocksminerals.flexiblelearning.auckland.ac.nz/rocks/gabbro.html https://www.mindat.org/min-48035.html
https://https://www.sandatlas.org/basalt/.sandatlas.org/basalt/ https://www.science.smith.edu/~jbrady/petrology/rock-library/igp-rocks/harzburgite/harzburgite.php

Nepheline Pegmatite
Gray is nepheline
Yellowish brown is wöhlerite
Black is hornblende
Pink is K-feldspar
Gray is magnetite

Microgranite Andesite Basalt Kimberlite

https://www.alexstrekeisen.it/english/pluto/nephelinepegmatite.php

Classifications of Igneous Rocks
Based on Texture
Syenite Pink alkali feldspar
Dark green aegirine-augite Texture Rate of Cooling Crystal Size
White lamellae Large crystals
Phanerites Slow cooling
generally ½ mm to 5 mm
Small crystals
Aphanites Rapid cooling
generally less than ½ mm
Glassy (Vitreous) Very fast zero grain size

https://geologyistheway.com/igneous/syenite/
 Examples of Glassy Rocks

Pitchstone

https://geology.cochise.edu/igneous-rock/pitchstone-3/

Obsidian Scoria

https://rockseeker.com/different-types-of-obsidian/
https://www.britannica.com/science/scoria
https://www.geologyin.com/2014/09/what-is-difference-between-phaneritic.html

Classifications of Igneous Rocks
Based on Color Index
Rock Division Color Index, M
Leucocratic 0 - 15 Felsic (Acidic)
Mesocratic 16 - 45 Intermediate
Melanocratic 46 - 85 Mafic (Basic)
Igneous Rock
Hypermelanic > 85 Ultrabasic Classification Chart
Color Index, M
- a number that represents the percent, by volume, of dark-colored
(i.e., mafic) minerals in a rock.
- the percentage of mafic minerals M minus the content of apatite,
carbonates, muscovite, zircon, etc.
https://www.mindat.org/glossary/color_index https://www.facebook.com/photo/?fbid=695728437751792&set=a.182396909084950

Examples of Rocks with Different Color Indices
Melanocratic
alkalifelspar-granite-with-turmaline_13800.html
https://www.topgeo.com/leucocratic-mu-bi-

Gabbro
Mesocratic
Lamprophyre
Leucocratic
Granite

Engineering Importance of Rocks
https://geology.com/rocks/peridotite.shtml

https://www.topgeo.com/leucocratic-mu-bi-alkalifelspar-granite-
with-turmaline_13800.html

https://www.topgeo.com/leucocratic-mu-bi-
alkalifelspar-granite-with-
turmaline_13800.html
Hypermelanic
Peridotite
 Importance of Igneous Rocks
The igneous rocks are typically impervious, hard and strong and form very strong
foundations for most of civil engineering projects such as dams and reservoirs.
Many of the igneous rocks are used extensively as materials for construction.
Granites, syenites and dolerites possess very high crushing strength and are
therefore supposed to be most suitable for construction works. Although, basalts
and other dark coloured igneous rocks are equally strong, these are recommended
for use in foundation of structures and roads only. Until traversed by joints, these Examples of Igneous Rocks and
rocks are the best for tunnels. Some of the igneous rocks like peridotites and
pegmatites are very valuable; they may contain many valuable minerals of much
economic worth. Moreover, their minerals and chemistry give information about
Their Characteristics and Uses
the composition of the mantle, from which some igneous rocks are extracted, and
the temperature and pressure conditions that allowed this formation, and/or of
other pre-existing rock that melted.

Granite Diorite
- plutonic acidic igneous rock - intermediate and plutonic igneous rock
Mineralogical Composition Mineralogical Composition
Granite is mainly composed of quartz and feldspar with biotite and hornblend. The colour of Diorites are typically rich in feldspar plagioclase of sodic group (e.g. albite). Besides plagioclase and
different granites is derived by the presence of feldspar, i.e. albite and orthoclase. Microcline and alkali feldspars, diorites also contain accessory minerals like hornblende, biotite and some
tourmaline may also be present as an accessory mineral. pyroxenes. Quartz is uncommon in diorite; but sometimes if it is present, it would be called as
Texture quartz-diorite.

The texture of granite depends upon the mineral composition as well as their mutual relationship. Texture
Granite shows porphyritic as well as intergrowth texture, depending upon the abundance of quartz The texture generally observed in diorite varies from coarse- to medium-grained and has
to feldspar. holocrystalline arrangement of different mineral grains. It shows ineguigranular texture, particularly
panidiomorphic textur.
Occurrence
Granites generally occur in the crust of the Earth and one of the most abundant igneous rock. They Occurrence
are mainly situated as deep-seated intrusive bodies like sills, and batholiths. Granites are exposed Diorite commonly occurs as small intrusive bodies like dikes, sills, stocks and other irregular
on the surface as an outcrop after erosion activities. intrusive masses. They also get formed at the margins of bigger igneous masses called igneous
Use pluton. It is found as hypabyssal rock.
Use
Granites are widely used in building materials as decorative stones, both as exterior and interiors.
Different types of granites are also used for geological studies. Diorite is used in buildings as decorative stones and also as aggregate.

Andesite Syenite
- volcanic igneous rock - plutonic coarse-grained, intermediate type of rock
Mineralogical Composition Mineralogical Composition
It is constituted by plagioclase. Andesite may contain small amounts of quartz as well as biotite, Syenites mainly contain feldspars of which many types may occur simultaneously in the same rock
hornblende, augite, olivine and hypersthene from the dark minerals giving them an overall greyish or in different varieties. The most common feldspars of syenite are orthoclase and albite.
or darker appearance. Microcline, oligoclase and anorthite are also present in them as accessory minerals. In some
Texture syenites, the minerals like nepheline, and leucite are present. Common accessory minerals
occurring in syenites are apatite, zircon, and sphene. Quartz is absent and rarely present as a minor
The texture generally observed in diorite varies from coarse- to medium-grained and has accessory.
holocrystalline arrangement of different mineral grains. It shows ineguigranular texture, particularly
panidiomorphic texture. Texture
Syenite shows textures coarse- to medium-grained textures, holocrystalline in nature and exhibit
Occurrence
graphic, inter-grown or porphyritic relationship among its constituents.
Andesite occurs abundantly as volcanic rocks, next to basalts, and may also occur as crystallized lava
flows of extensive dimensions. Occurrence

Use Syenite occurs in the plutonic stage of igneous activity when a suitable composition of magma is
cooled down.
Polished blocks of andesite make it eminently suitable as a decorative building stone. Andesite is
Use
used in buildings as decorative stones and in the paint industry.
Syenite is used in buildings as decorative stones and also in the extraction of nephaline as mineral.
Gabbro Dolerite
- plutonic basic rock - volcanic basic rock of typically hypabyssal origin
Mineralogical Composition Mineralogical Composition
Plagioclase feldspars of lime and soda composition (e.g. labradorite and anorthite) are the chief Dolerite is predominantly made up of calcic plagioclase (e.g. anorthite and labradorite). Dark
constituents of gabbro. Besides these, the mafic minerals like augite, hornblende, olivine, biotite minerals like augite, olivine and iron oxide, etc., are also present in good proportions along with the
and iron oxides are common as accessory minerals. plagioclase minerals.
Texture Texture
Gabbro shows inequigranular textures in which augite or olivine mineral encloses the plagioclase. Ophitic texture is very common in which augite mineral encloses the plasoclase.
The modal abundance of plagioclase is more than augite or olivine. Reaction rim is also well
Occurrence
observed in gabbro.
Sills and dykes of doleritic composition have been recorded at many places associated with
Occurrence magmatic activity.
Gabbro occurs under plutonic condition and is associated with convergent plate margin. Use
Use
Dolerite is used in buildings as decorative stones and in the extraction of plasioclase as mineral.
Gabbro is used in buildings as decorative stones and also in the extraction of plasioclase as mineral.

Basalt Pegmatite
- volcanic basic rock - an exceptionally coarse grained igneous rock formed from hydrothermal solutions
Mineralogical Composition emanating from magmas that get cooled and crystallized in cavities and cracks around
magmatic intrusions.
Basalts are commonly made up of calcic plagioclase feldspars (anorthite and labradorite) and a
Mineralogical Composition
number of ferro-magnesian minerals like augite, hornblende, hypersthene, olivine, biotite and iron
oxides, etc. In fact, many types of basalts are distinguished on the basis of the type and proportion Pegmatites exhibit great variation in their mineral composition. The granite pegmatites contain
of ferro-magnesian minerals in them. alkali feldspars (like orthoclase and microcline) and quartz as the dominant minerals. A variety
Occurrence of other minerals like tourmaline, micas (muscovite and biotite), topaz, fluorite, spodumene,
beryl, cassiterite, wolframite, columbite and tantalite, etc., occur in different pegmatites.
Basaltic rocks form extensive lava flows on the continents and also on the oceanic floors at
divergent and convergent boundaries in almost all the regions of the world.
Texture
Use
Pegmatites do not show any special textures and structures, except that they are invariably
Basalt is used in buildings as decorative stones and in the extraction of zeolite as mineral. coarse grained and mostly inequigranular.
Occurrence
Pegmatite occurs in fissures and cracks in existing igneous and metamorphic rocks as a later
phase of magma crystallizes and solidified in cracks.
Use
These rocks are used for their containing big-sized crystals of minerals. Some of these crystals
may be gems and other precious minerals.

Lamprophyre Peridotite
- typically occur as dykes and sills. - an ultra-mafic, coarse grained, plutonic igneous rocks.
Mineralogical Composition Mineralogical Composition
Mostly they are rich in ferro-magnesian silicates. Important minerals forming lamprophyres are It is highly rich in a ferro-magnesian mineral like olivine and augite, which has a composition of
biotite, augite and other pyroxenes, hornblende and other amphiboles, feldspars and olivine. (Mg,Fe)SiO4· This is characterized by a low silica index; (when silica is less than 45%).
Texture Texture
Lamprophyre are invariably coarse grained and mostly inequigranular. Peridotites are generally massive and coarse grained in texture.
Occurrence Occurrence
Lamprophyres occur in fissures and cracks in existing igneous and metamorphic rocks as the later Peridotites occur in form of sills and dykes of moderate size and are found at deeper depth.
phase of magma crystallizes and gets solidified in cracks. Use
Use
Peridotites are not common igneous rocks, but it is a suitable rock to replace the basalt and dolerite for
These rocks are used for their containing big-sized crystals of minerals. Some of these crystals may giving dark appearance in building exteriors. The olivine and augite minerals are also extracted from this
be gems and other precious minerals. rock.
https://www.nps.gov/places/sunrise-road-columnar-rock-formation.htm