Epigenetic-Hydrothermal Fluorite Veins in a Phosphorite Deposit from Balaton Highland (Pannonian Basin, Hungary): Signatures of a Regional Fluid Flow System in an Alpine Triassic Platform

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Epigenetic-Hydrothermal Fluorite Veins in a Phosphorite Deposit from Balaton Highland (Pannonian Basin, Hungary): Signatures of a Regional Fluid Flow System in an Alpine Triassic Platform. / Molnar, Zsuzsa; Kiss, Gabriella; Molnar, Ferenc et al.
in: Minerals, Jahrgang 11.2021, Nr. 6, 640, 16.06.2021.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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@article{328a21fd5ed1471eacbf3c3719dd2096,
title = "Epigenetic-Hydrothermal Fluorite Veins in a Phosphorite Deposit from Balaton Highland (Pannonian Basin, Hungary): Signatures of a Regional Fluid Flow System in an Alpine Triassic Platform",
abstract = "The middle Anisian extensional tectonics of the Neotethyan realm developed a small, iso-lated carbonate platform in the middle part of the Balaton Highland (western Hungary), resulted in the deposition of uranium‐bearing seamount phosphorite on the top of the drowned platform and produced some epigenetic fluorite veins in the Middle Triassic sequence. The stable C‐O isotope data of carbonates are shifted from the typical Triassic carbonate ranges, confirming the epigenetic-hydrothermal origin of veining. Primary fluid inclusions in fluorite indicate that these veins were formed from low temperature (85–169 °C) and high salinity NaCl + CaCl2 + H2O type (apparent total salinity: 15.91–22.46 NaCl wt%) hydrothermal fluids, similar to parent fluids of the Alpine‐type Pb‐ Zn deposits. These findings indicate that the Triassic regional fluid circulation systems in the Alpine platform carbonates also affected the area of the Balaton Highland. This is also in agreement with the previously established palinspatic tectonic reconstructions indicating that the Triassic carbonate and basement units in the Balaton Highland area were a part of the Southern Alpine. Similar fluorite veining in phosphorite deposits is also known in the Southern Alpine areas (e.g., Monte San Giorgi, Italy). Raman spectroscopic analyses detected H2 gas in the vapor phase of the fluid inclusions and a defect‐rich fluorite structure in violet to black colored growth zones. This unique phenomenon is assumed to be the result of interaction between the uranium‐rich phosphorite and the parent fluids of the epigenetic fluorite veins.",
author = "Zsuzsa Molnar and Gabriella Kiss and Ferenc Molnar and Taman Vaczi and Gyorgy Czuppon and Istv{\'a}n Dunkl and Federica Zaccarini and Istvan Dodony",
note = "Publisher Copyright:{\textcopyright} 2021 by the authors. Licensee MDPI, Basel, Switzerland.",
year = "2021",
month = jun,
day = "16",
doi = "10.3390/min11060640",
language = "English",
volume = "11.2021",
journal = "Minerals",
issn = "2075-163X",
publisher = "Multidisciplinary Digital Publishing Institute (MDPI)",
number = "6",

}

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TY - JOUR

T1 - Epigenetic-Hydrothermal Fluorite Veins in a Phosphorite Deposit from Balaton Highland (Pannonian Basin, Hungary): Signatures of a Regional Fluid Flow System in an Alpine Triassic Platform

AU - Molnar, Zsuzsa

AU - Kiss, Gabriella

AU - Molnar, Ferenc

AU - Vaczi, Taman

AU - Czuppon, Gyorgy

AU - Dunkl, István

AU - Zaccarini, Federica

AU - Dodony, Istvan

N1 - Publisher Copyright:© 2021 by the authors. Licensee MDPI, Basel, Switzerland.

PY - 2021/6/16

Y1 - 2021/6/16

N2 - The middle Anisian extensional tectonics of the Neotethyan realm developed a small, iso-lated carbonate platform in the middle part of the Balaton Highland (western Hungary), resulted in the deposition of uranium‐bearing seamount phosphorite on the top of the drowned platform and produced some epigenetic fluorite veins in the Middle Triassic sequence. The stable C‐O isotope data of carbonates are shifted from the typical Triassic carbonate ranges, confirming the epigenetic-hydrothermal origin of veining. Primary fluid inclusions in fluorite indicate that these veins were formed from low temperature (85–169 °C) and high salinity NaCl + CaCl2 + H2O type (apparent total salinity: 15.91–22.46 NaCl wt%) hydrothermal fluids, similar to parent fluids of the Alpine‐type Pb‐ Zn deposits. These findings indicate that the Triassic regional fluid circulation systems in the Alpine platform carbonates also affected the area of the Balaton Highland. This is also in agreement with the previously established palinspatic tectonic reconstructions indicating that the Triassic carbonate and basement units in the Balaton Highland area were a part of the Southern Alpine. Similar fluorite veining in phosphorite deposits is also known in the Southern Alpine areas (e.g., Monte San Giorgi, Italy). Raman spectroscopic analyses detected H2 gas in the vapor phase of the fluid inclusions and a defect‐rich fluorite structure in violet to black colored growth zones. This unique phenomenon is assumed to be the result of interaction between the uranium‐rich phosphorite and the parent fluids of the epigenetic fluorite veins.

AB - The middle Anisian extensional tectonics of the Neotethyan realm developed a small, iso-lated carbonate platform in the middle part of the Balaton Highland (western Hungary), resulted in the deposition of uranium‐bearing seamount phosphorite on the top of the drowned platform and produced some epigenetic fluorite veins in the Middle Triassic sequence. The stable C‐O isotope data of carbonates are shifted from the typical Triassic carbonate ranges, confirming the epigenetic-hydrothermal origin of veining. Primary fluid inclusions in fluorite indicate that these veins were formed from low temperature (85–169 °C) and high salinity NaCl + CaCl2 + H2O type (apparent total salinity: 15.91–22.46 NaCl wt%) hydrothermal fluids, similar to parent fluids of the Alpine‐type Pb‐ Zn deposits. These findings indicate that the Triassic regional fluid circulation systems in the Alpine platform carbonates also affected the area of the Balaton Highland. This is also in agreement with the previously established palinspatic tectonic reconstructions indicating that the Triassic carbonate and basement units in the Balaton Highland area were a part of the Southern Alpine. Similar fluorite veining in phosphorite deposits is also known in the Southern Alpine areas (e.g., Monte San Giorgi, Italy). Raman spectroscopic analyses detected H2 gas in the vapor phase of the fluid inclusions and a defect‐rich fluorite structure in violet to black colored growth zones. This unique phenomenon is assumed to be the result of interaction between the uranium‐rich phosphorite and the parent fluids of the epigenetic fluorite veins.

UR - http://www.scopus.com/inward/record.url?scp=85107875828&partnerID=8YFLogxK

U2 - 10.3390/min11060640

DO - 10.3390/min11060640

M3 - Article

VL - 11.2021

JO - Minerals

JF - Minerals

SN - 2075-163X

IS - 6

M1 - 640

ER -