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Autori principali: A. Musolino, B. Devouard, P. Rochette, P. Roperch, P. M. Zanetta, A.‐M. Seydoux‐Guillaume, A. Licht, D. Ferry, A. Campos
Natura: Artículo Open Access
Pubblicazione: Wiley 2025
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Accesso online:https://onlinelibrary.wiley.com/doi/10.1111/maps.14372
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  • Low‐temperature dissociation of zircon in highly alkaline conditions: A cautionary note for studies on natural glasses of debated origin A. Musolino B. Devouard P. Rochette P. Roperch P. M. Zanetta A.‐M. Seydoux‐Guillaume A. Licht D. Ferry A. Campos Meteoritics & Planetary Science Abstract Dissociated zircon is largely used as a robust indicator of glasses generated by impact cratering and airbursts. The reaction of zircon dissociation, i.e. ‘ZrSiO 4 → ZrO 2  + SiO 2 ’, requires high temperatures (>1670°C) only reached by extreme geological processes. Using high‐temperature experiments, this study shows that zircon can dissociate and form ZrO 2 ‐rich coronitic rims at temperatures of 900–1000°C (P = 1 bar), in the presence of a specific chemical environment made of NaCl or a mixture of NaCl and caliche soil (Ca‐sulfates). The use of silica glass vessels provides a SiO 2 ‐rich environment during the experiments. We observe that the dissociation is strongly related to the complexity of the surrounding system (e.g. the presence of other minerals that act as a flux) in which the reaction occurs. For these reasons, we suggest considering a more careful approach in using dissociated zircon as indicative of very high temperatures in glass‐forming processes. 10.1111/maps.14372 http://creativecommons.org/licenses/by/4.0/