How do you identify clinopyroxene in a thin section?
The keys to identifying calcic clinopyroxene are normally its high relief, pale green (sometimes clear or light brown) color, middle second-order interference colors, and near 90o cleavage seen in some views.
What color is clinopyroxene?
Clinopyroxene – XYZ2O Colour and Pleochroism: Usually colourless, gray, pale green or pale brown, darker colours associated with Fe-rich varieties titanaugite is more distinctly coloured from brown/pink to violet. Cleavage: Parallel to {110}, which intersect at 90°.
Does clinopyroxene have pleochroism?
The top two photomicrographs show the weak pale green pleochroism of Clinopyroxene. The bottom photomicrograph (taken in cross polarized light) demonstrates the higher birefringence of Clinopyroxene compared to Orthopyroxene, as well as the fact that it does not exhibit straight extinction.
What is the difference between orthopyroxene and clinopyroxene?
In orthopyroxenes the M2 site is usually octahedral and commonly contains Fe and Mg. In clinopyroxenes, larger cations (such as Li and Na) are in eightfold coordination in the M2 site (the larger cations need a different geometry to accommodate them, which reduces the symmetry to monoclinic).
How is clinopyroxene formed?
Pyroxenes that crystallize in the monoclinic system are known as clinopyroxenes and those that crystallize in the orthorhombic system are known as orthopyroxenes. However, they are simply early-forming minerals that crystallized before the lava erupted.
Is Aegirine a pleochroic?
Pleochroism: Intense pleochrosim from bright green to yellow-green and brown-green. The acmite variety of aegirine is weakly pleochroic in pale brown and yellow.
Is Orthopyroxene a pleochroic?
The orthopyroxene is blocky and fractured, shows high relief (PP), and has first order interference colors (XP). It is pleochroic, with color ranging from light pink to light green. Note the near 90o cleavage angle in the orthopyroxene.
What is orthopyroxene made of?
In Earth’s crust, pyroxenes are found in a wide range of igneous and metamorphic rocks. They are most abundant in the dark-colored igneous rocks, such as basalt and gabbro, that comprise most of the oceanic crust….
Physical Properties of Pyroxenes | |
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Chemical Classification | Silicate |
Specific Gravity | 3 to 4 |
Which of the described structure is pyroxenes?
Orthorhombic pyroxenes are referred to as orthopyroxenes, and monoclinic pyroxenes are called clinopyroxenes. The essential feature of all pyroxene structures is the linkage of the silicon-oxygen (SiO4) tetrahedrons by sharing two of the four corners to form continuous chains.
Where is Clinopyroxene found?
What is Orthopyroxene mineral?
orthopyroxene, any of a series of common silicate minerals in the pyroxene family. Orthopyroxenes typically occur as fibrous or lamellar (thin-plated) green masses in igneous and metamorphic rocks and in meteorites.
Which is thin section of clinopyroxene-pigeonite-2si2o6?
Clinopyroxene -Pigeonite- (Mg, Fe2+, Ca) 2Si2O6 – Thin section: Plane light: Colorless to pale brownish green. Generally not pleochroic. High positive relief. Basal sections show two cleavages at 87°. Longitudinal sections will show only one cleavage direction. Images removed for copyright considerations.
What do longitudinal sections of clinopyroxene look like?
Longitudinal sections show one cleavage. · Twinning and exsolution – Although many clinopyroxenes are neither twinned nor show exsolution, both features are common. Exsolved orthopyroxene may form fine lamellae in clinopyroxene; simple or polysynthetic twins may give a striped or herringbone appearance.
Which is the most significant end member of clinopyroxene?
The most significant clinopyroxene end member is diopside , CaMgSi 2 O 6. Its Fe equivalent, CaFeSi 2 O 6 is termed hedenbergite. Near end-member diopside is found in some marbles. Diopside and hedenbergite are the most dominant components in most augite.
Where can you find Ca-Mg clinopyroxene in rocks?
Diopside, a Ca-Mg clinopyroxene is found mostly in marbles. Clinopyroxenes have general formula (Ca,Mg,Fe,Na) (Mg,Fe,Al) (Si,Al) 2 O 6 . Most clinopyroxenes in igneous and metamorphic rocks (generally termed augite) can be thought of as (Ca,Mg,Fe) 2 Si 2 O 6 , with small amounts of Al, Mn and Na substituting for other elements.