Polished Botryoidal Hematite - 3.08"
Polished Botryoidal Hematite - 3.08"
Hematite is a hard and dense iron oxide compound that manifests a shining luster, with its dark blacks and browns accented by red flecks along its fissures. It's been used across human history both as fashioned tools and in its pigment form as ochre for cave painting.
This specimen is a Polished Botryoidal Hematite cluster, measuring 3.08". The rounded nodules present in the cluster owe their formation to small clumps of matter like sand the mineral formed around, giving the hematite its signature appearance.
πΈ Hematite clusters
Hematite's long use by humans
Hematite is marked by a contrast in appearance, it's dark, tar-like color nonetheless glistening with a shining luster. This compound has been used by humans for millennia, its homogenous and dense structure well-suited for toolmaking. Hematite can also be found lining cave walls in paleolithic paintings, the pigment used across the world in some of the oldest known works of art.
πΈ Hematite closeup
This specimen is a Polished Botryoidal Hematite cluster, demonstrating the compound's bulbous botryoidal shape, formed over millions of years. Each hematite cluster is shipped in a sturdy carton with an informational card which serves as certificate of authenticity. You can see all the currently available hematite specimens as well as our hematite portraits in the collection below.
MORE ABOUT HEMATITE AND IRON OXIDES
πΈ Rio tinto in spain
πΈ Martian "Blueberries" photographed by NASA's Mars Exploration Rover Opportunity (Credit: NASA/JPL-Caltech/Cornell/USGS)
Hematite, or iron(III) oxide (FeβOβ), is a reddish-black mineral forming through the oxidation of iron-rich rocks and minerals, often in the presence of water. One of the most remarkable terrestrial examples of this process can be seen at Rio Tinto in Spain (above), where acidic waters rich in dissolved iron flow, resulting in striking, rust-colored streams.
Similarly, Mars has offered its own peculiar iron oxide formations, famously dubbed "Martian blueberries." These small, spherical concretions were discovered by the Mars Exploration Rover, Opportunity, not Curiosity, and they consist predominantly of hematite, hinting at past aqueous conditions on Mars. This striking similarity between Earth and Mars provides valuable insights into the planetary processes involving water and iron minerals.
πΈ Hematite cylinder seal from Egypt
Hematite is an iron oxide with a lustrous sheen and color that ranges from deep black to a lighter browns, appearing darker in more dense material. The mineral is fine-grained and largely homogenous. Red flecks can appear in samples that are less dense, as in weathered cracks or as individual mineral particles in soils. Because of its homogenous structure, hematite was often used to make tools like Mesopotamian cylinder seals used in bookkeeping circa 2600-1200 BCE.
πΈ Red ochre pigment
Hematite is also the source of ochre pigment, a relatively common substance on the Earthβs surface and a ubiquitous piece of early human life. In its base form, ochre is a rich, iron-oxide hematite mixed with sand or clay. The exact composition of ochre differs from region to region, but it spans a spectrum of color between reds, browns, and yellows. Early humans would mix this pigment with oils to create a simple but effective paint.Β
πΈ Cueva de las Manos ("Cave of the Hands")
The evidence of this paint is found across the world in sites like the Cueva de las Manos in Argentina where for thousands of years, innumerable artists left their mark on the caveβs walls. Beyond its appearance in cave art, humans used ochre for sun protection, insect repellant, treating animal hides, body paint, food preservation, and even as a medicinal salve. Recent research has found that human production of ochre stretches back 250,000 years.
Further Reading
Dapschauskas, Rimtautas, et al. βThe emergence of habitual ochre use in Africa and its significance for the development of ritual behavior during the Middle Stone Age.β Journal of World Prehistory, vol. 35, no. 3β4, 2022, pp. 233β319, https://doi.org/10.1007/s10963-022- 09170-2.
Melein, Martine Marieke. Iron Oxide Rock Artefacts in Mesopotamia c. 2600-1200 BCβ―: An Interdisciplinary Study of Hematite, Goethite and Magnetite Objects. Summertown, Oxford: Archaeopress Publishing Ltd, 2018. Print.
Wreschner, Ernst E., et al. βRed Ochre and Human Evolution: A Case for Discussion [and Comments and Reply].β Current Anthropology, vol. 21, no. 5, 1980, pp. 631β44.