Anja Schreiber scite author profile

Nyerereite and nahcolite have been identified as micro- and nano-inclusions in diamond from the Juina area, Brazil. Alongside them are Sr- and Ba-bearing calcite minerals from the periclase-wiistite series, wollastonite II (high), Ca-rich garnet, spinels, olivine, phlogopite and apatite. Minerals of the periclase- wustite series belong to two separate groups: wustite and Mg-wustite with Mg# = 1.9—15.3, and Fe- periclase and periclase with Mg# = 84.9—92.1. Wollastonite-II (high, with Ca:Si = 0.992) has a triclinic structure. Two types of spinel were distinguished among mineral inclusions in diamond: zoned magnesioferrite (with Mg# varying from 13.5—90.8, core to rim) and Fe spinel (magnetite). Olivine (Mg# = 93.6), intergrown with nyerereite, forms an elongate, lath-shaped crystal and most likely represents a retrograde transformation of ringwoodite or wadsleyite. All inclusions are composed of poly-mineralic solid mineral phases. Together with previously found halides, sulphates and other mineral inclusions in diamond from Juina, they form a carbonatitic-type mineral paragenesis in diamond which may have originated in the lower mantle and/or transition zone. Wustite inclusions with Mg# = 1.9—3.4, according to experimental data, may have formed in the lowermost mantle. The source for the observed carbonatitic-type mineral association in diamond is lower-mantle natrocarbonatitic magma. This magma may represent a juvenile mantle melt, or be the result of low-degree partial melting of deeply-subducted carbonated oceanic crust. This magma was rich in volatiles, such as Cl, F and H, which played an important role in the formation of diamond.

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Amorphous calcium carbonate in the shells of adult Unionoida

Jacob

Wirth

Soldati

et al. 2011

Journal of Structural Biology

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Anja Schreiber

Geochemical evolution of organic-rich shales with increasing maturity: A STXM and TEM study of the Posidonia Shale (Lower Toarcian, northern Germany)

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Nyerereite and nahcolite inclusions in diamond: evidence for lower-mantle carbonatitic magmas

Amorphous calcium carbonate in the shells of adult Unionoida

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Anja Schreiber

Geochemical evolution of organic-rich shales with increasing maturity: A STXM and TEM study of the Posidonia Shale (Lower Toarcian, northern Germany)

Formation of nanoporous pyrobitumen residues during maturation of the Barnett Shale (Fort Worth Basin)

Organic synthesis on Mars by electrochemical reduction of CO 2

Nyerereite and nahcolite inclusions in diamond: evidence for lower-mantle carbonatitic magmas

Amorphous calcium carbonate in the shells of adult Unionoida

Contact Info

Product

Resources

About

Organic synthesis on Mars by electrochemical reduction of CO ₂