Jasper is a variety of chalcedony, which itself is a microcrystalline form of quartz. It is primarily composed of silicon dioxide (SiO2), often with impurities such as iron, manganese, and other mineral inclusions that give rise to its wide variety of colors and patterns. Below is a detailed look at the different types of jasper, categorized by their geological characteristics, composition, and formation processes.


Red Jasper

  • Composition: Rich in iron oxide, which gives it its characteristic red color.
  • Formation: Red Jasper is formed through the sedimentation process, where iron-rich sediments are compacted and solidified over time.
  • Texture: Typically opaque with a smooth, glassy luster when polished.
  • Locations: Found in regions with significant volcanic or sedimentary activity, such as India, Brazil, and the United States.

Ocean Jasper

  • Composition: Silica-based, with inclusions of minerals like iron and manganese, contributing to its multicolored, orbicular patterns.
  • Formation: Ocean Jasper forms in vesicular volcanic rocks, where silica-rich solutions percolate into voids and crystallize.
  • Texture: Characteristically smooth with a variety of patterns resembling water ripples or concentric circles.
  • Locations: Predominantly found in Madagascar, and in regions with volcanic activity.

Picture Jasper

  • Composition: Primarily composed of silicon dioxide with iron oxides and clay minerals creating the scenic patterns.
  • Formation: Formed in fine-grained sedimentary environments where layers of clay and silica cement over time, creating the “landscape” effect.
  • Texture: Opaque with a smooth polish; often displays unique banding or landscape-like imagery.
  • Locations: Commonly found in the western United States, particularly in Oregon, and also in South Africa.

Leopard Skin Jasper

  • Composition: Contains iron and manganese oxides, which give the stone its characteristic spotted appearance.
  • Formation: Leopard Skin Jasper forms through hydrothermal processes, where silica-rich fluids permeate rock fractures and cool into jasper.
  • Texture: Opaque with a fine-grained texture and smooth polish.
  • Locations: Primarily sourced from Mexico and parts of South America.

Dalmatian Jasper

  • Composition: A quartz-based mineral with black inclusions of tourmaline or other iron-rich minerals.
  • Formation: This jasper forms in igneous rock settings, where silica crystallizes and captures the distinct black spots.
  • Texture: Opaque with a smooth surface, typically speckled with black spots.
  • Locations: Found predominantly in Mexico, particularly in the Chihuahua region.

Brecciated Jasper

  • Composition: A mix of jasper fragments cemented together with quartz or chalcedony, creating a mosaic appearance.
  • Formation: Brecciation occurs when rock is fragmented by tectonic forces, and the gaps are filled with silica-rich fluids, which later harden into jasper.
  • Texture: Opaque with a rough, angular pattern that is highly polished for jewelry use.
  • Locations: Found in regions with significant tectonic activity, such as Brazil, India, and the United States.

Mookaite Jasper

  • Composition: Comprised of silica, iron oxides, and clay minerals, giving it its vibrant colors ranging from red to yellow.
  • Formation: Mookaite forms from the silicification of radiolarian fossils and other organic material in marine sedimentary environments.
  • Texture: Generally opaque with a glossy finish; can have a slight translucency in thin sections.
  • Locations: Found in Western Australia near Mooka Creek.

Kambaba Jasper

  • Composition: Primarily composed of silica, with green coloring from fossilized algae and stromatolites.
  • Formation: Formed from ancient cyanobacteria, Kambaba Jasper is technically a fossiliferous stone rather than a traditional jasper.
  • Texture: Opaque, with a dense, fine-grained texture and swirling green and black patterns.
  • Locations: Found in Madagascar and South Africa.

Polychrome Jasper

  • Composition: A silica-based stone with iron oxides and other minerals contributing to its multi-hued appearance.
  • Formation: Formed in sedimentary environments where silica and other minerals are deposited in bands or layers.
  • Texture: Smooth, opaque, and highly colorful, with a strong polish.
  • Locations: Sourced primarily from Madagascar.

Rainforest Jasper

  • Composition: A mix of quartz, epidote, and other minerals, giving it a green base color with spots of cream, brown, and black.
  • Formation: Created in volcanic environments where silica-rich fluids permeate into vesicular cavities of lava flows.
  • Texture: Opaque with a fine-grained, compact structure.
  • Locations: Found in Australia and parts of South America.

Yellow Jasper

  • Composition: Primarily composed of silicon dioxide, with iron oxide impurities giving it a yellow color.
  • Formation: Yellow Jasper forms in sedimentary or volcanic environments where iron-rich sediments are cemented together with silica.
  • Texture: Opaque with a smooth finish, often used in polished forms for jewelry.
  • Locations: Found in Namibia, Brazil, and the United States.

Green Jasper

  • Composition: Silica-based with iron inclusions that give it a green hue.
  • Formation: Often formed in hydrothermal environments or as part of metamorphic rocks, where iron-rich fluids crystallize with silica.
  • Texture: Opaque, with a fine-grained structure and smooth finish.
  • Locations: Found in Russia, India, and parts of North America.

Imperial Jasper

  • Composition: Silicon dioxide with varying amounts of iron, manganese, and other mineral inclusions.
  • Formation: Forms in volcanic or hydrothermal environments, where silica-rich fluids solidify into beautiful banded patterns.
  • Texture: Generally opaque with intricate banding and orbicular structures.
  • Locations: Found primarily in Mexico.

Fancy Jasper

  • Composition: Composed of silica with iron, manganese, and other trace elements that give it its multi-colored appearance.
  • Formation: Forms in sedimentary environments, where layers of silica-rich sediments are cemented and colored by mineral impurities.
  • Texture: Opaque, with a smooth finish and blended color patterns.
  • Locations: Found in India and South Africa.

Bumblebee Jasper

  • Composition: Contains a mix of silica, sulfur, and manganese oxides, giving it vibrant yellow and orange bands.
  • Formation: Formed from volcanic activity, particularly in fumarolic deposits where sulfur mixes with volcanic ash and silica.
  • Texture: Opaque with a slightly soft texture, requiring careful polishing.
  • Locations: Sourced from volcanic regions in Indonesia.

Spiderweb Jasper

  • Composition: Quartz-based, with dark veining caused by iron or manganese oxides.
  • Formation: Forms in volcanic or tectonic environments where cracks and fissures are filled with silica and crystallize into the web-like patterns.
  • Texture: Opaque with a fine-grained structure and distinct web-like patterns.
  • Locations: Found in Africa, particularly in Namibia.

Desert Jasper

  • Composition: A combination of quartz and iron oxides, giving it a range of earthy tones.
  • Formation: Formed in desert regions where silica-rich groundwater deposits solidify into bands of jasper.
  • Texture: Opaque with a smooth finish, often featuring flowing patterns.
  • Locations: Found in the southwestern United States and parts of Africa.

Jasper is a fascinating and diverse mineral that forms through a variety of geological processes, from sedimentation and volcanic activity to hydrothermal environments. Its unique colors and patterns are a result of the specific mineral inclusions, such as iron, manganese, and sulfur, combined with the conditions in which it forms. Each type of jasper—whether it’s the iron-rich Red Jasper, the fossilized Kambaba Jasper, or the volcanic Bumblebee Jasper—tells a geological story rooted in the Earth’s processes.

From its widespread use in ornamental art to its applications in jewelry and decorative objects, jasper has captivated humanity for centuries. Its fine-grained, durable structure makes it ideal for polishing, revealing the intricate natural designs within each stone. Understanding jasper through a scientific lens highlights not only its beauty but also its formation, emphasizing how different environmental factors contribute to the wide range of colors, patterns, and textures found in this versatile stone.