Melt-mediated re-equilibration of zircon produced during meltdown of the Chernobyl reactor

Fougerouse, Denis; Geisler, T.; Reddy, Steven M.; Aleshin, M.; Martin, L.; Doucet, Luc S.; Quadir, Zakaria; Saxey, David; Rickard, William

doi:10.2138/am-2022-8824

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Access Status

Open access

Authors

Fougerouse, Denis

Geisler, T.

Reddy, Steven M.

Aleshin, M.

Martin, L.

Doucet, Luc S.

Quadir, Zakaria

Saxey, David

Rickard, William

Date

2024

Type

Journal Article

Metadata

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Citation

Fougerouse, D. and Geisler, T. and Reddy, S.M. and Aleshin, M. and Martin, L. and Doucet, L.S. and Quadir, Z. et al. 2024. Melt-mediated re-equilibration of zircon produced during meltdown of the Chernobyl reactor. American Mineralogist. 109 (1): pp. 8-14.

Source Title

American Mineralogist

DOI

10.2138/am-2022-8824

ISSN

0003-004X

Faculty

Faculty of Science and Engineering

School

John de Laeter Centre (JdLC)

School of Earth and Planetary Sciences (EPS)

Abstract

The mineral zircon is used widely to constrain the age of rocks and the processes that formed them. Although zircon is robust to a range of physical and chemical processes, it may show evidence for rapid re-equilibration that is generally considered to reflect interaction with hydrous fluids. Here, we show that zircon grains that crystallized from melt produced during the catastrophic meltdown of the Chernobyl nuclear reactor exhibit re-equilibration textures that occurred in an environment without free water. The process of re-equilibration involved a melt-mediated interface-coupled dissolutionreprecipitation that took place over a few days to produce textures that are commonly observed in igneous and anatectic systems. Thus, the composition of zircon can be modified even in the absence of hydrous fluids in a short time frame. Through this process, zircon crystals may track the timing of the last silicate melt they interacted with.