Pargasite Mineral Overview

• Mineral name: Pargasite
• Mineral class: Silicate (inosilicate, amphibole group)
• Chemical formula: NaCa₂(Mg₄Al)(Si₆Al₂)O₂₂(OH)₂
• Crystal system: Monoclinic
• Mohs hardness: 5–6
• Color range: Dark green, black, brownish-green
• Luster: Vitreous
• Streak: Pale gray to white
• Cleavage: Perfect in two directions (~56° and 124°)
• Fracture: Splintery
• Specific gravity: Approximately 3.0–3.2
• Transparency: Translucent to opaque
• Common locations: Finland, United States, Canada, Italy, Greenland
• Uses: Petrology, collector mineral
• Similar minerals: Hornblende, tremolite, actinolite

Naming and Classification

Pargasite is a calcium-rich amphibole mineral, named after Pargas (Parainen), Finland, where it was first identified.

It belongs to the amphibole group, characterized by:

• Complex chemical compositions
• Double-chain silicate structures

Pargasite is part of a subgroup of amphiboles that contain both sodium and calcium, making it important in understanding mineral chemistry and rock formation.

Physical and Optical Characteristics

Pargasite typically occurs as:

• Granular or massive material
• Short prismatic or columnar crystals (less common)

Its color is usually dark green to nearly black, sometimes with brownish tones.

The luster is vitreous, and crystals may appear somewhat dull in massive forms. With a Mohs hardness of 5 to 6, it is moderately hard.

Like other amphiboles, pargasite shows perfect cleavage in two directions at characteristic angles (~56° and 124°), producing elongated fragments.

Chemical Composition and Structure

Pargasite is composed of:

• Sodium (Na)
• Calcium (Ca)
• Magnesium (Mg)
• Aluminum (Al)
• Silicon (Si)
• Hydroxyl (OH)

Its structure consists of double chains of silicate tetrahedra, typical of amphiboles, resulting in:

• Elongated crystal shapes
• Distinct cleavage angles

The presence of aluminum distinguishes it from simpler amphiboles like tremolite.

Formation and Geological Occurrence

Pargasite forms in metamorphic and igneous environments, particularly in:

Metamorphic Rocks

• High-temperature metamorphism
• Magnesium-rich and calcium-rich rocks

Igneous Rocks

• Occurs in mafic and ultramafic rocks
• Found in mantle-derived rocks

Typical formation conditions include:

• Moderate to high temperatures
• Availability of calcium, sodium, and magnesium

It is commonly associated with:

• Olivine
• Pyroxenes
• Spinel
• Other amphiboles

Common Locations

Pargasite is found in several regions worldwide:

• Finland: Type locality (Pargas)
• United States: California and other western states
• Canada: Metamorphic terrains
• Italy and Greenland: Additional occurrences

It is often found in high-grade metamorphic rocks and ultramafic environments.

Uses and Practical Significance

Pargasite has limited direct use but is important in:

• Petrology: Indicator of specific الضغط and temperature conditions
• Geological studies: Helps understand mantle and metamorphic processes
• Collector specimens: Especially when well-crystallized

It is not used as an ore mineral.

Similar and Related Minerals

Pargasite can resemble other amphiboles:

• Hornblende: More common and chemically variable
• Tremolite: Lighter in color and less aluminum-rich
• Actinolite: Typically greener and iron-bearing

Cleavage angles and chemical composition help distinguish these minerals.

Identification Notes for Collectors

• Look for dark green to black amphibole material
• Note cleavage angles (~56° and 124°)
• Check moderate hardness (5–6)
• Observe association with ultramafic or metamorphic rocks
• Consider chemical composition for precise identification

Pargasite is a calcium-rich amphibole mineral, recognized for its complex chemistry and occurrence in high-temperature metamorphic and igneous environments, making it important for geological research and specialized mineral collections.