New mineral classification system captures Earth's complex past



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New mineral classification system captures Earth's complex past

Currently 32 different mineral species of the "tourmaline group" are delineated by the distribution of the major elements of which they are comprised. So, a single shard of tourmaline with slight variations in chemistry often contains multiple species of the mineral, even if they all formed in the same geologic event. Credit: Public domain

Nanocrystalline diamonds, which are condensed from gases when the first generation of stars exploded. Diamonds that crystallize under the extreme pressure and temperature conditions What opportunities for knowledge are lost when mineralogists categorize both the cosmic travelers and the denizens of deep Earth being simply "diamond"?

Could a new classification system that accounts for minerals' distinct daydays help better understand mineralogy as a process of universal and planetary evolution?

The current system for classifying minerals-developed by James Dwight Dana in the 1850s-categorizes more than 5,400 mineral "species" based on their dominant chemical compositions and crystalline structures. This is an unambiguous, robust, and reproducible designation scheme.

Carnegie's Robert Hazen suggests an additional classification system, which could amplify existing knowledge of how minerals evolve over time without superseding the existing designations. in American Mineralogist's Roebling Medal Paper, Hazen argues for categories that reflect a deeper, more-modern understanding of planetary scale transformation over time.

A system grouping minerals and non-crystalline natural solids-which are not currently classified by the existing system-into what Hazen calls "natural kind clusters" would better reflect the inherent messiness of planetary evolution, he explains.

"For maximum efficacy, scientific classification systems must not just be organized and define, but also reflect current theory, and allow it to expand and guide us to new conclusions," Hazen says.

He pioneered the concept of mineral evolution-linking an explosion in mineral diversity to the rise of life on Earth and the resulting oxygen-rich atmosphere. Hazen then added another layer to its vision by introducing mineral ecology-which analyzes the spatial distribution of Earth's minerals to predict which ones remain undiscovered and to assert our planet's mineralogical uniqueness.

A system of categorization that does not have a mineral and crystalline structure, but also the physical, chemical, or biological processes by which it would be capable of recognizing that nanodiamonds from fundamentally differ from diamonds in Earth's depths.

The existing classification system groups some minerals with disparate formation histories together in one category, while splitting others with similar origin.

Another example: currently 32 different mineral species of the "tourmaline group" are delineated by the distribution of the major elements of which they are comprised. So, a single shard of tourmaline with slight variations in chemistry often contains multiple species of the mineral, even if they all formed in the same geologic event.

A natural kind classification system would be rectify that problem, and allow for the inclusion of non-crystalline materials, such as volcanic glass, amber, and coal, which currently are not counted as minerals, but can offer knowledge about our evolving planet.

"Earth's mineralogy tells vivid stories, revealing how eons of geologic activity and the rise of life facilitated novel combinations of elements," Hazen argues. "But let's go with every nuance of this mineralogical text, we must embrace a new language for describing the creation of minerals that reflects the passage of time."


Earth's unique mineralogy in the cosmos


More information:
Robert M. Hazen. American Mineralogist (2017) 102 (5): 1134-1135. doi.org/10.2138/am-2017-AP10252

Provided by
Carnegie Institution for Science


Quote:
                                                 New mineral classification system captures Earth's complex past (2019, June 3)
                                                 retrieved 3 June 2019
                                                 from https://phys.org/news/2019-06-mineral-classification-captures-earth-complex.html

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