Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits

Platinum-group elements (PGE) are important as petrogenetic tracers, but owing to their low abundances and complex behaviour they are among the least understood elements in geochemistry. This study investigates the mechanisms of PGE fractionation in ultramafic systems (komatiites, komatiitic basalts...

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Bibliographic Details
Main Author: Marek Locmelis
Format: Thesis
Language:unknown
Published: 2012
Subjects:
Other education not elsewhere classified
Magmatism
Sulphide minerals
Platinum group
Chromite
Intrusions (Geology)
Mineralogical chemistry
Igneous rocks
Ultrabasic rocks
Ruthenium
Ore deposits
Trace elements
Nickel sulphide
Geochemistry
Petrogenesis
Chromite > Composition
Ferro
Karasjok
Online Access:https://doi.org/10.25949/19438271.v1
https://figshare.com/articles/thesis/Mechanisms_of_platinum-group_element_fractionation_in_ultramafic_melts_and_implications_for_the_exploration_for_magmatic_nickel_sulphide_deposits/19438271
id ftmacquariefig:oai:figshare.com:article/19438271
record_format openpolar
spelling ftmacquariefig:oai:figshare.com:article/19438271 2023-05-15T16:59:56+02:00 Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits Marek Locmelis 2012-04-04T00:00:00Z https://doi.org/10.25949/19438271.v1 https://figshare.com/articles/thesis/Mechanisms_of_platinum-group_element_fractionation_in_ultramafic_melts_and_implications_for_the_exploration_for_magmatic_nickel_sulphide_deposits/19438271 unknown doi:10.25949/19438271.v1 https://figshare.com/articles/thesis/Mechanisms_of_platinum-group_element_fractionation_in_ultramafic_melts_and_implications_for_the_exploration_for_magmatic_nickel_sulphide_deposits/19438271 In Copyright Other education not elsewhere classified Magmatism Sulphide minerals Platinum group Chromite Intrusions (Geology) Mineralogical chemistry Igneous rocks Ultrabasic rocks Ruthenium Ore deposits Trace elements Nickel sulphide Geochemistry Petrogenesis Chromite -- Composition Text Thesis 2012 ftmacquariefig https://doi.org/10.25949/19438271.v1 2022-12-28T08:38:57Z Platinum-group elements (PGE) are important as petrogenetic tracers, but owing to their low abundances and complex behaviour they are among the least understood elements in geochemistry. This study investigates the mechanisms of PGE fractionation in ultramafic systems (komatiites, komatiitic basalts, ferro-picrites) and focuses on the role of chromite. Samples from a range of occurrences have been analysed to assess potential controls on PGE behaviour, such as geochemical affinities (Munro-type and Karasjok-type), age (2.0 and 2.7 Ga), emplacement styles, metamorphic grade and nickel-sulphide mineralisation endowment and style. -- Data obtained by in-situ laser ablation ICP-MS analysis provide the first direct evidence that Ru can exist in solid solution in chromite with concentrations up to several hundred ppb. The data show that the behaviour of Ru is dominantly controlled by the sulphide-saturation state. In systems that did not equilibrate with a sulphide liquid, chromites have distinctly higher Ru concentrations than chromites from systems that interacted with a sulphur-source during crystallisation. Carius tube digestion isotope dilution ICP-MS analyses of chromite separates confirm the accuracy of the in-situ study and also show that Ir is weakly compatible in chromite. Anomalously high Pt and Pd concentrations in chromite separates reflect the presence of platinum-group minerals (PGM) and suggest that PGM are common accessory phases in komatiites. A study of the PGE-mineralogy shows that PGM in komatiites can be of magmatic and post-magmatic origin and that they often remain undetected due to grain sizes less than 5 urn. As a consequence, the presence of PGE minerals has to be taken into account when whole-rock PGE signatures are interpreted. -- The association of Ru-poor chromites with Ni mineralisation and Ru-rich chromites with barren systems provides a new tool for the exploration for nickel-sulphide deposits. This model applies to all magma types and is independent of the age, the geochemical ... Thesis Karasjok Research from Macquarie University Ferro ENVELOPE(16.233,16.233,66.717,66.717) Karasjok ENVELOPE(25.519,25.519,69.472,69.472)
institution Open Polar
collection Research from Macquarie University
op_collection_id ftmacquariefig
language unknown
topic Other education not elsewhere classified
Magmatism
Sulphide minerals
Platinum group
Chromite
Intrusions (Geology)
Mineralogical chemistry
Igneous rocks
Ultrabasic rocks
Ruthenium
Ore deposits
Trace elements
Nickel sulphide
Geochemistry
Petrogenesis
Chromite -- Composition
spellingShingle Other education not elsewhere classified
Magmatism
Sulphide minerals
Platinum group
Chromite
Intrusions (Geology)
Mineralogical chemistry
Igneous rocks
Ultrabasic rocks
Ruthenium
Ore deposits
Trace elements
Nickel sulphide
Geochemistry
Petrogenesis
Chromite -- Composition
Marek Locmelis
Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
topic_facet Other education not elsewhere classified
Magmatism
Sulphide minerals
Platinum group
Chromite
Intrusions (Geology)
Mineralogical chemistry
Igneous rocks
Ultrabasic rocks
Ruthenium
Ore deposits
Trace elements
Nickel sulphide
Geochemistry
Petrogenesis
Chromite -- Composition
description Platinum-group elements (PGE) are important as petrogenetic tracers, but owing to their low abundances and complex behaviour they are among the least understood elements in geochemistry. This study investigates the mechanisms of PGE fractionation in ultramafic systems (komatiites, komatiitic basalts, ferro-picrites) and focuses on the role of chromite. Samples from a range of occurrences have been analysed to assess potential controls on PGE behaviour, such as geochemical affinities (Munro-type and Karasjok-type), age (2.0 and 2.7 Ga), emplacement styles, metamorphic grade and nickel-sulphide mineralisation endowment and style. -- Data obtained by in-situ laser ablation ICP-MS analysis provide the first direct evidence that Ru can exist in solid solution in chromite with concentrations up to several hundred ppb. The data show that the behaviour of Ru is dominantly controlled by the sulphide-saturation state. In systems that did not equilibrate with a sulphide liquid, chromites have distinctly higher Ru concentrations than chromites from systems that interacted with a sulphur-source during crystallisation. Carius tube digestion isotope dilution ICP-MS analyses of chromite separates confirm the accuracy of the in-situ study and also show that Ir is weakly compatible in chromite. Anomalously high Pt and Pd concentrations in chromite separates reflect the presence of platinum-group minerals (PGM) and suggest that PGM are common accessory phases in komatiites. A study of the PGE-mineralogy shows that PGM in komatiites can be of magmatic and post-magmatic origin and that they often remain undetected due to grain sizes less than 5 urn. As a consequence, the presence of PGE minerals has to be taken into account when whole-rock PGE signatures are interpreted. -- The association of Ru-poor chromites with Ni mineralisation and Ru-rich chromites with barren systems provides a new tool for the exploration for nickel-sulphide deposits. This model applies to all magma types and is independent of the age, the geochemical ...
format Thesis
author Marek Locmelis
author_facet Marek Locmelis
author_sort Marek Locmelis
title Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
title_short Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
title_full Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
title_fullStr Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
title_full_unstemmed Mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
title_sort mechanisms of platinum-group element fractionation in ultramafic melts and implications for the exploration for magmatic nickel sulphide deposits
publishDate 2012
url https://doi.org/10.25949/19438271.v1
https://figshare.com/articles/thesis/Mechanisms_of_platinum-group_element_fractionation_in_ultramafic_melts_and_implications_for_the_exploration_for_magmatic_nickel_sulphide_deposits/19438271
long_lat ENVELOPE(16.233,16.233,66.717,66.717)
ENVELOPE(25.519,25.519,69.472,69.472)
geographic Ferro
Karasjok
geographic_facet Ferro
Karasjok
genre Karasjok
genre_facet Karasjok
op_relation doi:10.25949/19438271.v1
https://figshare.com/articles/thesis/Mechanisms_of_platinum-group_element_fractionation_in_ultramafic_melts_and_implications_for_the_exploration_for_magmatic_nickel_sulphide_deposits/19438271
op_rights In Copyright
op_doi https://doi.org/10.25949/19438271.v1
_version_ 1766052571249639424

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