Hydrogrossular Mineral Overview
- Mineral name: Hydrogrossular
- Mineral class: Silicate (nesosilicate, garnet group)
- Chemical formula: Ca₃Al₂(SiO₄)₃₋ₓ(OH)₄ₓ (variable; hydroxyl replaces silica)
- Crystal system: Cubic (isometric)
- Mohs hardness: 6.5–7
- Color range: Green, white, gray, pink
- Luster: Waxy to vitreous
- Streak: White
- Cleavage: None
- Fracture: Conchoidal to uneven
- Specific gravity: Approximately 3.3–3.5
- Transparency: Opaque to translucent
- Common locations: South Africa, United States, Canada, China
- Uses: Gemstone (often sold as jade substitute), ornamental stone
- Similar minerals: Grossular, jadeite, serpentine
Naming and Classification
Hydrogrossular is a variety of grossular garnet, distinguished by:
- Partial replacement of silica (SiO₄) with hydroxyl (OH)
The name reflects this:
- “Hydro” = water-related (hydroxyl content)
- “Grossular” = its parent garnet species
It is part of the garnet group, which are nesosilicate minerals with similar crystal structures.
Physical and Optical Characteristics
Hydrogrossular typically occurs as:
- Massive, compact material
- Fine-grained aggregates
It rarely forms well-defined crystals.
Its color is often:
- Green (most common)
- White or gray
- Pink in some cases
The luster is usually waxy to dull, especially in massive forms.
With a Mohs hardness of 6.5–7, it is relatively durable.
Texture and Appearance (Key Feature)
Hydrogrossular is known for:
- Smooth, compact, jade-like appearance
Because of this, it is often:
- Mistaken for jade
- Sold as “Transvaal jade” or similar trade names
Chemical Composition and Structure
Hydrogrossular is composed of:
- Calcium (Ca)
- Aluminum (Al)
- Silicon (Si) (partially replaced)
- Hydroxyl (OH)
It retains the garnet crystal structure, but with:
- Substitution of hydroxyl groups for silica tetrahedra
This substitution affects:
- Density
- Optical properties
Formation and Geological Occurrence
Hydrogrossular forms in metamorphic and hydrothermal environments, particularly:
Altered Calcium-Rich Rocks
- Contact metamorphism of limestone
Serpentinized Environments
- Associated with ultramafic rock alteration
Typical formation conditions include:
- Presence of water-rich fluids
- Calcium- and aluminum-rich environments
It is commonly associated with:
- Serpentine
- Vesuvianite
- Other garnets
Common Locations
Hydrogrossular is found in several regions:
- South Africa: Transvaal (classic locality)
- United States: California
- Canada: Quebec
- China: Various deposits
South African material is especially well known in the gem trade.
Uses and Practical Significance
Hydrogrossular is used for:
Gemstone and Ornamental Use
- Cabochons and carvings
- Often marketed as jade substitute
Collector Interest
- Unique variety of garnet
It has no major industrial use.
Similar and Related Minerals
Hydrogrossular can resemble:
- Jadeite: More valuable and different structure
- Nephrite: Fibrous and tougher
- Serpentine: Softer and less dense
Testing is often needed to distinguish these materials.
Identification Notes for Collectors
- Look for green, massive, jade-like material
- Note hardness (6.5–7)
- Observe waxy luster
- Check lack of visible crystal structure
- Consider association with serpentine or metamorphic rocks
Hydrogrossular is a variety of grossular garnet, recognized for its hydroxyl-rich composition and jade-like appearance, making it a popular ornamental stone and a commonly mistaken substitute for true jade.