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Zaccarini, Federica, Kiss, Gabriella B., Garuti, Giorgio, Mauro, Daniela, Economou-Eliopoulos, Maria, Hegedűs, Máté, Biagioni, Cristian (2025) Methane in Fluid Inclusions in Ophiolitic Chromitites Revealed by Raman Spectroscopy: Preliminary Results. Minerals, 15 (4). doi:10.3390/min15040335

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Reference TypeJournal (article/letter/editorial)
TitleMethane in Fluid Inclusions in Ophiolitic Chromitites Revealed by Raman Spectroscopy: Preliminary Results
JournalMinerals
AuthorsZaccarini, FedericaAuthor
Kiss, Gabriella B.Author
Garuti, GiorgioAuthor
Mauro, DanielaAuthor
Economou-Eliopoulos, MariaAuthor
Hegedűs, MátéAuthor
Biagioni, CristianAuthor
Year2025Volume<   15   >
Issue<   4   >
URL
DOIdoi:10.3390/min15040335Search in ResearchGate
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Mindat Ref. ID18189871Long-form Identifiermindat:1:5:18189871:1
GUID0
Full ReferenceZaccarini, Federica, Kiss, Gabriella B., Garuti, Giorgio, Mauro, Daniela, Economou-Eliopoulos, Maria, Hegedűs, Máté, Biagioni, Cristian (2025) Methane in Fluid Inclusions in Ophiolitic Chromitites Revealed by Raman Spectroscopy: Preliminary Results. Minerals, 15 (4). doi:10.3390/min15040335
Plain TextZaccarini, Federica, Kiss, Gabriella B., Garuti, Giorgio, Mauro, Daniela, Economou-Eliopoulos, Maria, Hegedűs, Máté, Biagioni, Cristian (2025) Methane in Fluid Inclusions in Ophiolitic Chromitites Revealed by Raman Spectroscopy: Preliminary Results. Minerals, 15 (4). doi:10.3390/min15040335
InLink this record to the correct parent record (if possible)
Abstract/NotesThis contribution provides a petrographic and Raman investigation of fluid inclusions found in chromitites collected in the ophiolites of Santa Elena (Costa Rica), Bracco (Italy), Otrhys and Vourinos (Greece), and Troodos (Cyprus). Most of the analyzed chromites are classified as high-Cr, with the exception of those from Bracco and some of the Othrys complexes that are high-Al. Although the investigation of fluid inclusions in chromitites is very challenging due to the poor transparency of the host chromite, the studied samples contain numerous fluid inclusions. The fluid inclusions look to be more abundant in the high-Cr chromitites, related to a subduction zone environment, compared to the high-Al chromitites generated in a mid-ocean ridge. This is in agreement with the petrogenetic model for the formation of podiform chromitites that implies the presence of a metasomatic event caused by hydrous fluids that reacted pervasively with variable depleted mantle tectonites, especially in the subduction zone setting. The fluid inclusions, between 1 and 15 µm in size, show negative crystal or irregular angular shapes. They occur when enclosed in chromite crystals that have not been affected by low-temperature processes. The fluid inclusions consist of liquid (L), vapour(V 30–50 area%) and L + V (V 40–60 area% rarely 10–80 area%). The fluid inclusions may contain only vapour and a vapour and a solid phase, too. The Raman spectra reveal the presence of CH4 in certain fluid inclusions. Considering the high number of fluid inclusions that potentially contain CH4, we suggest that the fluid inclusions in the chromite crystals and their leaching can be a possible source in order to explain the high amount of CH4 detected in some podiform chromitites, previously attributed to the Sabatier reaction. The mode of the occurrences of the studied CH4 bearing fluid inclusions, i.e., entrapped in unaltered chromite crystals formed at a magmatic temperature, suggest their abiotic origin from mantle-derived fluids, rather than those related to the low-temperature serpentinization processes. The investigation of fluid inclusions, although it is difficult and challenging or even impossible when the chromite is too opaque, can be applicable to other chromitites worldwide to verify the presence of H2O, CH4 or other gases. This information will greatly improve our understanding of the nature of the fluid phases during the formation of podiform chromitites.

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Locality Pages

LocalityCitation Details
Santa Elena ultramafic Nappe, Nicoya Canton, Guanacaste Province, Costa Rica
Troodos mountain range, Cyprus
Othrys ophiolite complex, Greece
Vourinos Ophiolite complex, Western Macedonia, Greece
Bracco, Moneglia, Genoa, Liguria, Italy

Mineral Occurrences

LocalityMineral(s)
Santa Elena ultramafic Nappe, Nicoya Canton, Guanacaste Province, Costa Rica Chromite, Chromitite, Harzburgite, Magnesiochromite, Ophiolite
Kokkinorotsos chromite mine (Chrome Mine), Limassol District, Cyprus Chromite, Chromitite
Troodos mountain range, Cyprus Chromite, Chromitite, Dunite, Gabbro, Harzburgite, Ophiolite, Pillow lava, Pyroxenite, Tectonite, Wehrlite
Othrys ophiolite complex, Greece Chromite, Chromitite, Cumulate, Gabbro, Harzburgite, Hercynite, Lherzolite, Ophiolite, Peridotite
Vourinos Ophiolite complex, Western Macedonia, Greece Chromite, Chromitite, Dunite, Harzburgite, Hercynite, Ophiolite, Tectonite
Bracco, Moneglia, Genoa, Liguria, Italy Anorthosite, Chromite, Chromitite, Clinochlore, Gabbro, Hercynite, Lherzolite, Ophiolite, Pennine, Peridotite, Pillow lava, Troctolite

See Also

These are possibly similar items as determined by title/reference text matching only.

Zaccarini, Federica, Economou-Eliopoulos, Maria, Tsikouras, Basilios, Garuti, Giorgio (2024) Chromite Composition and Platinum-Group Elements Distribution in Tethyan Chromitites of the Mediterranean Basin: An Overview. Minerals, 14 (8) 744 doi:10.3390/min14080744
Economou-Eliopoulos, Maria, Zaccarini, Federica, Garuti, Giorgio (2020) Editorial for the Special Issue “Innovative and Applied Research on Platinum-Group and Rare Earth Elements”. Minerals, 10 (6) 493 doi:10.3390/min10060493
Zaccarini, Federica, Economou-Eliopoulos, Maria, Kiseleva, Olga, Garuti, Giorgio, Tsikouras, Basilios, Pushkarev, Evgenii, Idrus, Arifudin (2022) Platinum Group Elements (PGE) Geochemistry and Mineralogy of Low Economic Potential (Rh-Pt-Pd)-Rich Chromitites from Ophiolite Complexes. Minerals, 12 (12) 1565 doi:10.3390/min12121565
Zaccarini, Federica, Economou-Eliopoulos, Maria, Garuti, Giorgio - Eds. (2020) Innovative and Applied Research on Platinum-Group and Rare Earth Elements. MDPI. doi:10.3390/books978-3-03936-598-2
Economou-Eliopoulos, Maria, Zaccarini, Federica, Garuti, Giorgio (2023) Fertility Indicators for Porphyry-Cu-Au+Pd±Pt Deposits: Evidence from Skouries, Chalkidiki Peninsula, Greece, and Comparison with Worldwide Mineralizations. Minerals, 13 (11) doi:10.3390/min13111413
Zaccarini, Federica, Idrus, Arifudin, Garuti, Giorgio (2016) Chromite Composition and Accessory Minerals in Chromitites from Sulawesi, Indonesia: Their Genetic Significance. Minerals, 6 (2). 46 doi:10.3390/min6020046
B. Kiss, Gabriella, Bendő, Zsolt, Garuti, Giorgio, Zaccarini, Federica, Király, Edit, Molnár, Ferenc (2021) Reconstruction of Hydrothermal Processes in the Cyprus Type Fe-Cu-Zn Deposits of the Italian Northern Apennines: Results of Combined Fluid Inclusion Microthermometry, SEM-CL Imaging and Trace Element Analyses by LA-ICP-MS. Minerals, 11 (2) 165 doi:10.3390/min11020165
Kiss, Gabriella B.; Garuti, Giorgio; Zaccarini, Federica (2015) Fluid inclusion study of the Boccassuolo VMS-related stockwork deposit (Northern-Apennine ophiolites, Italy). Geologia Croatica, 68 (3). 285-302 doi:10.4154/gc.2015.22
Kiss, Gabriella B., Molnár, Kata, Benkó, Zsolt, Skoda, Péter, Kapui, Zsuzsanna, Garuti, Giorgio, Zaccarini, Federica, Palcsu, László, Czuppon, György (2022) Tracing the Source of Hydrothermal Fluid in Ophiolite-Related Volcanogenic Massive Sulfide Deposits: A Case Study from the Italian Northern Apennines. Minerals, 13 (1) 8 doi:10.3390/min13010008
Zaccarini, Federica, Garuti, Giorgio, Pushkarev, Evgeny, Thalhammer, Oskar (2018) Origin of Platinum Group Minerals (PGM) Inclusions in Chromite Deposits of the Urals. Minerals, 8 (9) 379 doi:10.3390/min8090379
Vymazalová, Anna, Zaccarini, Federica, Garuti, Giorgio, Laufek, František, Mauro, Daniela, Stanley, Chris J., Biagioni, Cristian (2020) Bowlesite, PtSnS, a new platinum group mineral (PGM) from the Merensky Reef of the Bushveld Complex, South Africa. Mineralogical Magazine, 84 (3) 468-476 doi:10.1180/mgm.2020.32
 
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