S-type granites are a category of

granite Granite ( ) is a coarse-grained (phanerite, phaneritic) intrusive rock, intrusive igneous rock composed mostly of quartz, alkali feldspar, and plagioclase. It forms from magma with a high content of silica and alkali metal oxides that slowly coo ...

s first proposed in 1974. They are recognized by a specific set of

mineralogical Mineralogy is a subject of geology specializing in the scientific study of the chemistry, crystal structure, and physical (including optical) properties of minerals and mineralized artifacts. Specific studies within mineralogy include the proces ...

geochemical Geochemistry is the science that uses the tools and principles of chemistry to explain the mechanisms behind major geological systems such as the Earth's crust and its oceans. The realm of geochemistry extends beyond the Earth, encompassing the ...

, textural, and isotopic characteristics. S-type granites are over-saturated in

aluminium Aluminium (or aluminum in North American English) is a chemical element; it has chemical symbol, symbol Al and atomic number 13. It has a density lower than that of other common metals, about one-third that of steel. Aluminium has ...

, with an ASI index greater than 1.1 where ASI = Al₂O₃ / (CaO + Na₂O +K₂O) in mol percent;

petrographic Petrography is a branch of petrology that focuses on detailed descriptions of rocks. Someone who studies petrography is called a petrographer. The mineral content and the textural relationships within the rock are described in detail. The classi ...

features are representative of the chemical composition of the initial

magma Magma () is the molten or semi-molten natural material from which all igneous rocks are formed. Magma (sometimes colloquially but incorrectly referred to as ''lava'') is found beneath the surface of the Earth, and evidence of magmatism has also ...

as originally put forth by Chappell and White are summarized in their table 1.

Mineralogy

Major minerals (present in amounts > 5 volume%)

Like all

granites Granite ( ) is a coarse-grained ( phaneritic) intrusive igneous rock composed mostly of quartz, alkali feldspar, and plagioclase. It forms from magma with a high content of silica and alkali metal oxides that slowly cools and solidifies under ...

, the modal mineralogy of S-type granites are dominated by

alkali In chemistry, an alkali (; from the Arabic word , ) is a basic salt of an alkali metal or an alkaline earth metal. An alkali can also be defined as a base that dissolves in water. A solution of a soluble base has a pH greater than 7.0. The a ...

- and

plagioclase Plagioclase ( ) is a series of Silicate minerals#Tectosilicates, tectosilicate (framework silicate) minerals within the feldspar group. Rather than referring to a particular mineral with a specific chemical composition, plagioclase is a continu ...

feldspar Feldspar ( ; sometimes spelled felspar) is a group of rock-forming aluminium tectosilicate minerals, also containing other cations such as sodium, calcium, potassium, or barium. The most common members of the feldspar group are the ''plagiocl ...

s and

quartz Quartz is a hard, crystalline mineral composed of silica (silicon dioxide). The Atom, atoms are linked in a continuous framework of SiO4 silicon–oxygen Tetrahedral molecular geometry, tetrahedra, with each oxygen being shared between two tet ...

. Thus, S-type granites are silica over-saturated (contain quartz), and do not contain

feldspathoid The feldspathoids are a group of tectosilicate minerals which resemble feldspar Feldspar ( ; sometimes spelled felspar) is a group of rock-forming aluminium tectosilicate minerals, also containing other cations such as sodium, calcium, pota ...

s. An interesting feature of S-type granites, at the hand sample scale, is that alkali-feldspars are typically white in color (rather than pink) excluding samples that have been affected by weathering and alteration. A photomicrograph, taken in cross-polarized light, of alkali feldspar from the S-type Strathbogie Granite of Australia is shown in figure 1. Examples of granite textures and mineralogy as seen in sawn-slabs from hand samples collected from granites of the

Lachlan Fold Belt The Lachlan Fold Belt (LFB) or Lachlan Orogen is a geological subdivision of the east part of Australia. It is a zone of folded and faulted rocks of similar age. It dominates New South Wales and Victoria, also extending into Tasmania, the Austr ...

, Australia are shown. This includes enclaves of dark, lineated, ovoid,

metamorphic rocks Metamorphic rocks arise from the transformation of existing rock to new types of rock in a process called metamorphism. The original rock ( protolith) is subjected to temperatures greater than and, often, elevated pressure of or more, caus ...

in the S-type Cooma Granodiorite. These enclaves are considered to represent restite by some researchers and meta-sedimentary

xenoliths A xenolith ("foreign rock") is a rock fragment (country rock) that becomes enveloped in a larger rock during the latter's development and solidification. In geology, the term ''xenolith'' is almost exclusively used to describe inclusions in ign ...

by others. The S-type Granya Granite shows the characteristic white feldspars, grey quartz, and black

biotite Biotite is a common group of phyllosilicate minerals within the mica group, with the approximate chemical formula . It is primarily a solid-solution series between the iron- endmember annite, and the magnesium-endmember phlogopite; more al ...

, the highly reflective mineral is

muscovite Muscovite (also known as common mica, isinglass, or potash mica) is a hydrated phyllosilicate mineral of aluminium and potassium with formula KAl2(Al Si3 O10)( F,O H)2, or ( KF)2( Al2O3)3( SiO2)6( H2O). It has a highly perfect basal cleavage y ...

. The S-type Strathbogie Granite crops out in the Strathbogie Ranges of Australia. A hand sample from the Strathbogie Granite has a

porphyritic Porphyritic is an adjective used in geology to describe igneous rocks with a distinct difference in the size of mineral crystals, with the larger crystals known as phenocrysts. Both extrusive and intrusive rocks can be porphyritic, meaning ...

texture with larger crystal of grey quartz, called phenocrysts, set in a finer grain matrix of quartz and feldspar. The darker, prismatic, phenocrysts in this sample of the Strathbogie Granite are

cordierite Cordierite (mineralogy) or iolite (gemology) is a magnesium iron aluminium cyclosilicate. Iron is almost always present, and a solid solution exists between Mg-rich cordierite and Fe-rich sekaninaite with a series formula: to . A high-tempera ...

. Geologists use differences in mineralogy and texture, such as shown here, to subdivide large granite

batholiths A batholith () is a large mass of intrusive igneous rock (also called plutonic rock), larger than in area, that forms from cooled magma deep in the Earth's crust. Batholiths are almost always made mostly of felsic or intermediate rock types, s ...

into subdomains on

geological map A geological map or geologic map is a special-purpose map made to show various geological features. Rock (geology), Rock units or stratum, geologic strata are shown by color or symbols. Bed (geology), Bedding planes and structural features such ...

s. File:CC1 Hand sample.jpg, alt=Hand sample of CC-1 from the S-type Cooma Granodiorite, Australia., Hand sample of CC-1 from the S-type Cooma Granodiorite, Australia File:VB140 Hand sample .jpg, alt=S-type Granya Granite, Australia., Hand sample of VB-140 from the S-type Granya Granite, Australia File:CV114 Handsample.jpg, alt=Hand sample of CV-114 S-type Strathbogie Granite, Australia., Hand sample of CV-114 S-type Strathbogie Granite, Australia File:F1 Perthite CV 114.jpg, ''Figure 1. Photomicrograph of perthitic texture in alkali-feldspar (center) from the Strathbogie Granite, Australia. (Cross polarized light). Sample CV-114.''

Characteristic minor minerals (present in amounts > 1% and < 5 volume%)

Minor minerals in S-type granites reflect the aluminium saturation or ASI Index of the rock being greater than 1.1 mol%. These minerals include

garnet Garnets () are a group of silicate minerals that have been used since the Bronze Age as gemstones and abrasives. Garnet minerals, while sharing similar physical and crystallographic properties, exhibit a wide range of chemical compositions, de ...

, and

sillimanite Sillimanite or fibrolite is an aluminosilicate mineral with the chemical formula Al2SiO5. Sillimanite is named after the American chemist Benjamin Silliman (1779–1864). It was first described in 1824 for an occurrence in Chester, Connecticut ...

. Within S-type volcanics, cordierite occurs in place of

clinopyroxene The pyroxenes (commonly abbreviated Px) are a group of important rock-forming inosilicate minerals found in many igneous and metamorphic rocks. Pyroxenes have the general formula , where X represents ions of calcium (Ca), sodium (Na), iron (Fe ...

. The presence of these aluminous silicate minerals are commonly used as a means of initially classifying granites as “S-type”. Photomicrographs of these minerals in thin section from S-type granites of the

are shown in figure 2a and 2b. S-type granites can also contain aluminium-rich, iron and magnesium rich

s. Biotite compositions from S-type granites are more aluminous than those of I-type granites consistent with the higher ASI index of S-type granites. Figures 3a and 3b are photomicrographs of thin sections of sample CC-1 from the Cooma Granodiorite, Lachlan Fold Belt, Australia. In plane polarized light (PPL, Fig. 3a) the mineral biotite is light brown to "foxy" red brown with dark circular spots known as “

pleochroic halo A pleochroic halo, or radiohalo, is a microscopic, spherical shell of discolouration (pleochroism) within minerals such as biotite that occurs in granite and other igneous rocks. The halo is a zone of radiation damage caused by the inclusion of m ...

s”.

Muscovite Muscovite (also known as common mica, isinglass, or potash mica) is a hydrated phyllosilicate mineral of aluminium and potassium with formula KAl2(Al Si3 O10)( F,O H)2, or ( KF)2( Al2O3)3( SiO2)6( H2O). It has a highly perfect basal cleavage y ...

is clear and sillimanite is the more acicular-fibrous mineral within the dark zone of the image. In cross polarized light (Fig. 3b) muscovite displays colorful birefringence and sillimanite is of the variety "fibrolite". Sillimanite is considered a diagnostic mineral for peraluminous S-type granites. Figure 4a and 4b, show the mineral

, which is also considered to be a diagnostic mineral for peraluminous S-type granites in the Strathbogie Granite (sample CV-142). Subhedral cordierite phenocryst shown here is colorless in plane polarized light, but can display a light blue color in some minerals, and is grey in cross-polarized light. It is an orthorhombic mineral and displays a prismatic crystal form with imperfect cleavage. File:XPL Photomicrograph of CV-126 Strathbogie Granite, Australia.jpg, alt=Photomicrograph of garnet, biotite, and plagioclase in an S-type Granite., Figure 2a. Cross-polarized light photomicrograph showing garnet and biotite and plagioclase in the sample CV-126 from the mafic S-type Strathbogie Granite. File:Photomicrograph of Garnet in CV 126.jpg, alt=Garnet and biotite in an S-type granite, Figure 2b. Plane polarized light photomicrograph showing garnet and biotite in sample CV-126 from the mafic S-type Strathbogie Granite. File:F3 PPL Sillimanite CC1.jpg, alt=Photomicrograph of the Cooma Granodiorite, Australia., Figure 3a Plane polarized light photomicrograph showing the mineral Sillimanite surrounded by biotite and muscovite in sample CC-1 from the Cooma Granodiorite. File:F3 XPL Sillimanite CC1.jpg, alt=Figure 3b Cross polarized light photomicrograph showing the mineral Sillimanite in CC-1 from the Cooma Granodiorite, Australia., Figure 3b Cross polarized light photomicrograph showing the mineral Sillimanite surrounded by biotite and muscovite in sample CC-1 from the Cooma Granodiorite. File:F4 PPL Cordierite CV142.jpg, alt=cordierite in sample CV-142 from the Strathbogie S-type Granite, Australia., Figure 4a. Plane polarized light photomicrograph of cordierite in sample CV-142 from the Strathbogie S-type Granite. File:F4 XPL Cordierite CV142.jpg, alt=Cordierite from sample CV-142 of the S-type Strathbogie Granite, Australia., Figure 4b. Cross-polarized light photomicrograph showing cordierite from sample CV-142 of the S-type Strathbogie Granite.

Accessory minerals (present in amounts < 1 volume%)

Accessory minerals commonly observed in S-type granites include

zircon Zircon () is a mineral belonging to the group of nesosilicates and is a source of the metal zirconium. Its chemical name is zirconium(IV) silicate, and its corresponding chemical formula is Zr SiO4. An empirical formula showing some of th ...

apatite Apatite is a group of phosphate minerals, usually hydroxyapatite, fluorapatite and chlorapatite, with high concentrations of Hydroxide, OH−, Fluoride, F− and Chloride, Cl− ion, respectively, in the crystal. The formula of the admixture of ...

tourmaline Tourmaline ( ) is a crystalline silicate mineral, silicate mineral group in which boron is chemical compound, compounded with chemical element, elements such as aluminium, iron, magnesium, sodium, lithium, or potassium. This gemstone comes in a ...

monazite Monazite is a primarily reddish-brown phosphate mineral that contains rare-earth elements. Due to variability in composition, monazite is considered a group of minerals. The most common species of the group is monazite-(Ce), that is, the cerium ...

and

xenotime Xenotime is a rare-earth phosphate mineral, the major component of which is yttrium orthophosphate ( Y P O4). The phosphate ions are described by a tetrahedral shape and coordinate to the center Y3+ metal ion in a way that closely resembles the s ...

. Monazite is considered a diagnostic accessory mineral of S-type granites, whereas

allanite Allanite (also called orthite) is a sorosilicate group of minerals within the broader epidote group that contain a significant amount of rare-earth elements. The mineral occurs mainly in metamorphosed clay-rich sediments and felsic igneous rocks. ...

is diagnostic of I-type granites. Oxide minerals in S-type granites will more commonly be

ilmenite Ilmenite is a titanium-iron oxide mineral with the idealized formula . It is a weakly magnetic black or steel-gray solid. Ilmenite is the most important ore of titanium and the main source of titanium dioxide, which is used in paints, printi ...

rather than

magnetite Magnetite is a mineral and one of the main iron ores, with the chemical formula . It is one of the iron oxide, oxides of iron, and is ferrimagnetism, ferrimagnetic; it is attracted to a magnet and can be magnetization, magnetized to become a ...

. Accessory minerals in S-type granites commonly are associated with, or occur as inclusions, in biotite. For example, apatite occurs in S-type granites in greater modal abundance and as larger, discrete crystals than in the I-type granites. Figure 5a, 5b, and 5c show the mineral tourmaline associated with quartz in sample CV-114 from the Strathbogie Granite, Australia. Figures 5a and 5b are both in plane polarized light with the orientation of tourmaline rotated to show its characteristic change in color known as pleochroism. The calcium phosphate mineral

is a common accessory minerals of S-type granites. It is typically spatially associated with the mineral biotite. Figure 6 is a plane polarized light photomicrograph showing apatite crystals (clear) included in a brown biotite grain from sample CV-126 of the Strathbogie Granite. The dark circles with a clear center are pleochroic halos which form as the result of radiation damage to the biotite from mineral inclusions that contain high concentrations of uranium and/or thorium. File:F5 PPL Tourmaline CV114.jpg, alt=Figure 5a. tourmaline in the Strathbogie Granite, Australia., Figure 5a. Plane polarized light photomicrograph of tourmaline in sample CV-114 from the Strathbogie Granite File:F5 PPLb Tourmaline CV114.jpg, alt=Tourmaline in the S-type Strathbogie Granite, Australia, Figure 5b. Plane polarized light photomicrograph of tourmaline in sample CV-114 from the Strathbogie Granite. The thin section has been slightly rotated to show the characteristic change in color of the tourmaline known as pleochroism. File:F5 XPL Tourmaline CV114.jpg, alt=Tourmaline in sample CV-114 from the Strathbogie Granite, Australia., Figure 5c. Cross-polarized light photomicrograph of tourmaline in sample CV-114 from the Strathbogie Granite File:F6 PPL Apatite CV126.jpg, alt=apatite inclusions in a biotite from sample CV-126 of the Strathbogie Granite, Australia., Figure 6. Plane polarized photomicrograph of apatite inclusions in a biotite from sample CV-126 of the Strathbogie Granite.

Alteration and subsolidus (post crystallization) minerals

Alteration in S-type granites can produce, in order of abundance, chlorite, white mica, clay minerals, epidote, and sericite. Cordierite and sillimanite are rarely seen without alteration halos of white mica, chlorite, muscovite, and clay minerals, and can be identified easily by the presence of these halos.

Petrologic characteristics

Color indices

The color index of S-type granites can vary from melanocratic to leucocratic. Higher color indices correlate with higher plagioclase to alkali feldspar ratios. The most common high color index mineral in an S-type granite is biotite. F7 XPL Granophyre CV114

Textures

S-type granites, like other granite types, can vary in crystal size from aphanitic to phaneritic; crystal size distributions include porphyritic, seriate, and rarely equigranular textures. Mafic xenoliths/enclaves can be found in S-type granites. Granophyric textures can be found in S-type granites, particularly leucocratic ones. In porphyritic S-type granites, phenocrysts are commonly feldspars, but can also be quartz, and in rare cases, such as the Strathbogie Granite,

. Figure 7 shows an example of granophyric texture in the Strathbogie Granite. The mineral quartz (light grey to off white) forms irregular to angular crystals of varying size that are intimately intergrown with the mineral feldspar (dark grey) indicating rapid crystallization.

Pressure quenching

A rapid change in pressure, from loss of volatile components (e.g., dissolved water in the melt) during crystallization can lead to a period of rapid crystallization. Change in crystal growth forms that are interpreted to occur as a result of this loss in pressure are known as "pressure-quenching" textures. Figure 8 is a photomicrograph in cross-polarized light showing alkali-feldspar (

perthite Perthite or perthitic texture is used to describe an intergrowth of two feldspars: a host grain of potassium-rich alkali feldspar (near K-feldspar, KAlSi3O8, in composition) includes exsolved lamellae or irregular intergrowths of sodic alkali f ...

core)-quartz (in extinction near the feldspar crystal rim) intergrowth, overgrown by a partial rim of plagioclase texture in Sample CV-114 from the Strathbogie Granite (cross polarized light). This texture is interpreted to represent partial quenching possibly due to a loss of pressure.

Geochemistry

Major elements

Major element characteristics of S-type granites include lower levels of sodium and calcium, and elevated levels of silica and aluminium. Iron and magnesium content correlate with color index in S-type granites. In addition, S-type granites contain more magnesium than iron. With respect to aluminium, S-type granites are always

peraluminous Peraluminous rocks are igneous rocks that have a molecular proportion of aluminium oxide higher than the combination of sodium oxide, potassium oxide and calcium oxide.Blatt, Harvey and Robert J. Tracy, ''Petrology,'' Freeman, 2nd ed., 1995, p. ...

, or have a total alkali (+calcium) to aluminium ratio of greater than one.

Trace elements

S-type granites contain elevated levels of

potassium Potassium is a chemical element; it has Symbol (chemistry), symbol K (from Neo-Latin ) and atomic number19. It is a silvery white metal that is soft enough to easily cut with a knife. Potassium metal reacts rapidly with atmospheric oxygen to ...

rubidium Rubidium is a chemical element; it has Symbol (chemistry), symbol Rb and atomic number 37. It is a very soft, whitish-grey solid in the alkali metal group, similar to potassium and caesium. Rubidium is the first alkali metal in the group to have ...

and

lead Lead () is a chemical element; it has Chemical symbol, symbol Pb (from Latin ) and atomic number 82. It is a Heavy metal (elements), heavy metal that is density, denser than most common materials. Lead is Mohs scale, soft and Ductility, malleabl ...

, and are depleted in

strontium Strontium is a chemical element; it has symbol Sr and atomic number 38. An alkaline earth metal, it is a soft silver-white yellowish metallic element that is highly chemically reactive. The metal forms a dark oxide layer when it is exposed to ...

. With respect to

rare earth element The rare-earth elements (REE), also called the rare-earth metals or rare earths, and sometimes the lanthanides or lanthanoids (although scandium and yttrium, which do not belong to this series, are usually included as rare earths), are a set o ...

s, S-type granites are light rare earth element depleted compared to other granite types.

Isotopic characteristics

Strontium isotope characteristics in S-type granites are more variable and

radiogenic A radiogenic nuclide is a nuclide that is produced by a process of radioactive decay. It may itself be radioactive (a radionuclide) or stable (a stable nuclide). Radiogenic nuclides (more commonly referred to as radiogenic isotopes) form some of ...

than for I-type plutons. With respect to

oxygen isotopes There are three known stable isotopes of oxygen (8O): , , and . Radioactive isotopes ranging from to have also been characterized, all short-lived. The longest-lived radioisotope is with a half-life of , while the shortest-lived isotope is ...

, S-type granites are enriched in heavy oxygen.

Zircon Zircon () is a mineral belonging to the group of nesosilicates and is a source of the metal zirconium. Its chemical name is zirconium(IV) silicate, and its corresponding chemical formula is Zr SiO4. An empirical formula showing some of th ...

s within S-type granites can be inherited and can predate the emplacement of the granite.

Interpretation

Source characteristics

S-type granites are so named as a shorthand for “Supracrustal” type. The interpretation of S-type granites are that they are sourced from the partial melting of sedimentary rocks (supracrustal) that have been through one or more cycles of weathering. Evidence for this include aluminium and silica enrichment, caused by the weathering process of the source rock. Weathering causes alkalis, such as sodium, to leave the rock and therefore enrich the rock in non-soluble components.

The I-S Line

The I-S line is an observed contact between I- and S-type granites in an igneous terrane. This contact is usually clearly defined; one example of this occurring is within the

of Australia. The I-S line is interpreted to be the location of a paleo-structure in the subsurface that separated the generation zones of the two different melts.

Suites and Supersuites

Granite plutons can be grouped into suites and super suites by their source regions, which in turn are interpreted by comparing their compositions. This interpretation comes from the plotting of different element concentrations against the level of evolution of the granite, usually as percent silica or its magnesium to iron ratio. Igneous rocks with the same source region will plot along a line in silica to element space.

Restite unmixing

Granites traced to the same source region can often have very variable mineralogy; color index for example can vary greatly within the same batholith. In addition, many minerals resist melting and would not melt at the temperatures known to create the magmas that form S-type granites. One theory that explains this mineralogic anomaly is ''restite unmixing''. In this theory, minerals that are resistant to melting, such as the mafic silicate minerals (e.g., the color index minerals), do not melt but are rather brought up by the melt in solid state. Melts that are farther from their source regions would therefore contain lower modal abundance of the color index minerals, while those closer to their source regions would have a higher color index. This theory supplements the theories of partial melting and

fractional crystallization Fractional crystallization may refer to: * Fractional crystallization (chemistry), a process to separate different solutes from a solution * Fractional crystallization (geology) Fractional crystallization, or crystal fractionation, is one of the ...

Other models

Other models include: ''magma mixing'', ''crustal assimilation'' and ''source region mixing''. More recent studies have shown that the source regions of I-type and S-type magmas cannot be homogeneously igneous or sedimentary, respectively. Instead, many magmas show signs of being sourced from a combination of source materials. These magmas can be characterized by having a series of

neodymium Neodymium is a chemical element; it has Symbol (chemistry), symbol Nd and atomic number 60. It is the fourth member of the lanthanide series and is considered to be one of the rare-earth element, rare-earth metals. It is a hard (physics), hard, sli ...

and

hafnium Hafnium is a chemical element; it has symbol Hf and atomic number 72. A lustrous, silvery gray, tetravalent transition metal, hafnium chemically resembles zirconium and is found in many zirconium minerals. Its existence was predicted by Dm ...

isotope Isotopes are distinct nuclear species (or ''nuclides'') of the same chemical element. They have the same atomic number (number of protons in their Atomic nucleus, nuclei) and position in the periodic table (and hence belong to the same chemica ...

characteristics that can be thought of as a combination of both I- and S-type isotopic characteristics. Magma mixing is another aspect of granite formation that must be taken into account when observing granites. Magma mixing occurs when magmas of a different composition intrude a larger magma body. In some cases, the melts are

immiscible Miscibility () is the property of two chemical substance, substances to mix in all mixing ratio, proportions (that is, to fully dissolution (chemistry), dissolve in each other at any concentration), forming a homogeneity and heterogeneity, homoge ...

and stay separated to form pillow like collections of denser mafic magmas on the bottom of less dense felsic magma chambers. The mafic pillow basalts will demonstrate a felsic matrix, suggesting magma mingling. Alternatively, the melts mix together and form a magma of a composition intermediate to the intrusive and intruded melt.

Localities of occurrence

Well known examples of S-type granites occur in:

Asia

Malay Peninsula The Malay Peninsula is located in Mainland Southeast Asia. The landmass runs approximately north–south, and at its terminus, it is the southernmost point of the Asian continental mainland. The area contains Peninsular Malaysia, Southern Tha ...

Australia

** Cootralantra Granodiorite ** Cooma Granodiorite ** Bulla Granitoid ** Strathbogie Granite ** Granya Granite

Europe

* West Carpathian Mountains *

Naxos, Greece Naxos (; , ) is a list of islands of Greece, Greek island belonging to the Cyclades island group. It is the largest island in the group. It was an important centre during the Bronze Age Cycladic Culture and in the Ancient Greece, Ancient Greek ...

* West European Variscan Belt

North America

Sierra Nevada The Sierra Nevada ( ) is a mountain range in the Western United States, between the Central Valley of California and the Great Basin. The vast majority of the range lies in the state of California, although the Carson Range spur lies primari ...

South America

* Cordillera Real in EcuadorRegional S-type granites in the Ecuadorian Andes: Possible remnants of the breakup of western Gondwana
/ref>

References

{{reflist Granite