Liebermannite, kokchetavite, and other ultrahigh-pressure phases at Ries impact crater (Germany)

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Marco E. Ciriotti
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Liebermannite, kokchetavite, and other ultrahigh-pressure phases at Ries impact crater (Germany)

Messaggio da Marco E. Ciriotti » mer 03 ago, 2022 9:29

Prossima pubblicazione.

Referenza:
▪ Stähle, V., Chutimun Chanmuang N., Schwarz, W.H., Trieloff, M., Varychev, A. (2022): Newly detected shock-induced high-pressure phases formed in amphibolite clasts of the suevite breccia (Ries impact crater, Germany): Liebermannite, kokchetavite, and other ultrahigh-pressure phases. Mineralogy and Petrology, 116, (in press).

Abstract:
Amphibolite clasts in the suevite of the Ries impact crater contain shock-induced melt veins (SMVs) with high-pressure phases such as majoritic garnet, jadeitic clinopyroxene and others. In addition, heat conduction from hot SMVs into adjacent rock portions locally produced further high P–T melt pools. These melts were preferentially generated in rock domains, where the SMVs cross older (‘pre-Ries’) veinlets with analcime or prehnite and larger grains of sericitized plagioclase. Melting of such chemically diferent local bulk systems (Na-, Ca-, Ca-Na- and K-Na-rich) was facilitated by low solidus temperatures of the original secondary OH-bearing phases. From the resulting shock-induced melts, liebermannite, kokchetavite, jadeite, nonstoichiometric and albitic jadeite, grossular, vuagnatite, lawsonite+coesite, and clinozoisite crystallized during pressure release. Vuagnatite is now proven to be a genuine high-pressure phase. Its ubiquitous distance of 20–35 μm from the hot shock veins suggests a temperature sensitivity typical for an OH-bearing phase. In local Na-rich melts albitic jadeite appears instead of the assemblage jadeite+ SiO2. Liebermannite, a dense polymorph of K-feldspar was identifed by Raman spectroscopy. After stishovite, liebermannite constitutes the second known high-pressure phase in the Ries that contains silicon exclusively in six-fold coordination. The KAlSi3O8-polymorph kokchetavite was formed in alkali-rich melt glasses. Pressure and temperature values in the range of about 8–11 GPa and~800–1100 °C were estimated from the chemical compositions of locally occurring majoritic garnets (Si=3.21–3.32 and 3.06–3.10 apfu), respectively, and the presence of fne-grained aggregates of lawsonite and coesite. Generally, the neighboring areas of the veins are characterized by a sequence of variable high-pressure phases documenting strongly falling P–T conditions with increasing distance from the vein. These novel features enlighten the dynamic event during passage of a shock wave.
Marco E. Ciriotti

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