Platinum-group Mineral (PGM) and Base-metal Sulphide (BMS) Inclusions in Chromitites of the Zedang Ophiolite, Southern Tibet, China and their Petrogenetic Significance
Voluminous platinum-group mineral (PGM) inclusions including erlichmanite (Os,Ru)S2, laurite (Ru,Os)S2, and irarsite (Ir, Os,Ru,Rh)AsS, as well as native osmium Os(Ir) and inclusions of base metal sulphides (BMS), including millerite (NiS), heazlewoodite (NiaS2), covellite (CuS) and digenite (Cu3S2)...
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| Veröffentlicht in: | 地质学报:英文版 2016, Vol.90 (3), p.900-912 |
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| creator | GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui |
| description | Voluminous platinum-group mineral (PGM) inclusions including erlichmanite (Os,Ru)S2, laurite (Ru,Os)S2, and irarsite (Ir, Os,Ru,Rh)AsS, as well as native osmium Os(Ir) and inclusions of base metal sulphides (BMS), including millerite (NiS), heazlewoodite (NiaS2), covellite (CuS) and digenite (Cu3S2), accompanied by native iron, have been identified in chromitites of the Zedang ophiolite, Tibet. The PGMs occur as both inclusions in magnesiochromite grains and as small interstitial granules between them; most are less than 10 ~m in size and vary in shape from euhedral to anhedral. They occur either as single or composite (biphase or polyphase) grains composed solely of PGM, or PGM associated with silicate grains. Os-, Ir-, and Ru-rich PGMs are the common species and Pt-, Pd-, and Rh-rich varieties have not been identified. Sulfur fugacity and temperature appear to be the main factors that controlled the PGE mineralogy during crystallization of the host chromitite in the upper mantle. If the activity of chalcogenides (such as S, and As) is low, PGE clusters will remain suspended in the silicate melt until they can coalesce to form alloys. Under appropriate conditions of fS2 and fO2, PGE alloys might react with the melt to form sulfides-sulfarsenides. Thus, we suggest that the Os, Ir and Ru metallic clusters and alloys in the Zedang chromitites crystallized first under high temperature and low fS2, followed by crystallization of sulphides of the laurite-erlichmanite, solid-solution series as the magma cooled and fS2 increased. The abundance of primary BMS in the chromitites suggests that fS2 reached relatively high values during the final stages of magnesiochromite crystallization. The diversity of the PGE minerals, in combination with differences in the petrological characteristics of the magnesiochromites, suggest different degrees of partial melting, perhaps at different depths in the mantle. The estimated parental magma composition suggests formation in a suprasubduction zone environment, perhaps in a forearc. |
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ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</creator><creatorcontrib>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</creatorcontrib><description>Voluminous platinum-group mineral (PGM) inclusions including erlichmanite (Os,Ru)S2, laurite (Ru,Os)S2, and irarsite (Ir, Os,Ru,Rh)AsS, as well as native osmium Os(Ir) and inclusions of base metal sulphides (BMS), including millerite (NiS), heazlewoodite (NiaS2), covellite (CuS) and digenite (Cu3S2), accompanied by native iron, have been identified in chromitites of the Zedang ophiolite, Tibet. The PGMs occur as both inclusions in magnesiochromite grains and as small interstitial granules between them; most are less than 10 ~m in size and vary in shape from euhedral to anhedral. They occur either as single or composite (biphase or polyphase) grains composed solely of PGM, or PGM associated with silicate grains. Os-, Ir-, and Ru-rich PGMs are the common species and Pt-, Pd-, and Rh-rich varieties have not been identified. Sulfur fugacity and temperature appear to be the main factors that controlled the PGE mineralogy during crystallization of the host chromitite in the upper mantle. If the activity of chalcogenides (such as S, and As) is low, PGE clusters will remain suspended in the silicate melt until they can coalesce to form alloys. Under appropriate conditions of fS2 and fO2, PGE alloys might react with the melt to form sulfides-sulfarsenides. Thus, we suggest that the Os, Ir and Ru metallic clusters and alloys in the Zedang chromitites crystallized first under high temperature and low fS2, followed by crystallization of sulphides of the laurite-erlichmanite, solid-solution series as the magma cooled and fS2 increased. The abundance of primary BMS in the chromitites suggests that fS2 reached relatively high values during the final stages of magnesiochromite crystallization. The diversity of the PGE minerals, in combination with differences in the petrological characteristics of the magnesiochromites, suggest different degrees of partial melting, perhaps at different depths in the mantle. The estimated parental magma composition suggests formation in a suprasubduction zone environment, perhaps in a forearc.</description><identifier>ISSN: 1000-9515</identifier><identifier>EISSN: 1755-6724</identifier><language>eng</language><subject>BMS ; PGMs ; 硫化物包裹体 ; 蛇绿岩 ; 西藏南部 ; 金属硫化物 ; 铂族矿物 ; 铬铁矿</subject><ispartof>地质学报:英文版, 2016, Vol.90 (3), p.900-912</ispartof><lds50>peer_reviewed</lds50><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Uhttp://image.cqvip.com/vip1000/qk/86253X/86253X.jpg</thumbnail><link.rule.ids>314,778,782,4012</link.rule.ids></links><search><creatorcontrib>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</creatorcontrib><title>Platinum-group Mineral (PGM) and Base-metal Sulphide (BMS) Inclusions in Chromitites of the Zedang Ophiolite, Southern Tibet, China and their Petrogenetic Significance</title><title>地质学报:英文版</title><addtitle>Acta Geologica Sinica</addtitle><description>Voluminous platinum-group mineral (PGM) inclusions including erlichmanite (Os,Ru)S2, laurite (Ru,Os)S2, and irarsite (Ir, Os,Ru,Rh)AsS, as well as native osmium Os(Ir) and inclusions of base metal sulphides (BMS), including millerite (NiS), heazlewoodite (NiaS2), covellite (CuS) and digenite (Cu3S2), accompanied by native iron, have been identified in chromitites of the Zedang ophiolite, Tibet. The PGMs occur as both inclusions in magnesiochromite grains and as small interstitial granules between them; most are less than 10 ~m in size and vary in shape from euhedral to anhedral. They occur either as single or composite (biphase or polyphase) grains composed solely of PGM, or PGM associated with silicate grains. Os-, Ir-, and Ru-rich PGMs are the common species and Pt-, Pd-, and Rh-rich varieties have not been identified. Sulfur fugacity and temperature appear to be the main factors that controlled the PGE mineralogy during crystallization of the host chromitite in the upper mantle. If the activity of chalcogenides (such as S, and As) is low, PGE clusters will remain suspended in the silicate melt until they can coalesce to form alloys. Under appropriate conditions of fS2 and fO2, PGE alloys might react with the melt to form sulfides-sulfarsenides. Thus, we suggest that the Os, Ir and Ru metallic clusters and alloys in the Zedang chromitites crystallized first under high temperature and low fS2, followed by crystallization of sulphides of the laurite-erlichmanite, solid-solution series as the magma cooled and fS2 increased. The abundance of primary BMS in the chromitites suggests that fS2 reached relatively high values during the final stages of magnesiochromite crystallization. The diversity of the PGE minerals, in combination with differences in the petrological characteristics of the magnesiochromites, suggest different degrees of partial melting, perhaps at different depths in the mantle. The estimated parental magma composition suggests formation in a suprasubduction zone environment, perhaps in a forearc.</description><subject>BMS</subject><subject>PGMs</subject><subject>硫化物包裹体</subject><subject>蛇绿岩</subject><subject>西藏南部</subject><subject>金属硫化物</subject><subject>铂族矿物</subject><subject>铬铁矿</subject><issn>1000-9515</issn><issn>1755-6724</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><recordid>eNqNjU1OwzAQhSMEEuXnDiPWjeQUnCjbVvwtqkZKV2wqk0ycQc442M6CG8BpuEDv1CvgIg7A6o3m-57eSTLLCinTvFjcncZbCJGWMpPnyYX3b0LkMs_kLPmujArE05BqZ6cR1sTolIHD_rN6XB_2X6C4haXymA4YIqgnM_bU4tFYruuj8cyNmTxZ9kAMq97ZgQIF9GA7CD3CC7aKNWxi0ZoI5lDbKQLHsKVXDPNYIla_U_FNDioMzmpkDNRATZqpo0Zxg1fJWaeMx-u_vExuHu63q6e06S3rd2K9Gx0Nyn3s8rxcFKLIy9t_ST9fWmX0</recordid><startdate>2016</startdate><enddate>2016</enddate><creator>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</creator><scope>2RA</scope><scope>92L</scope><scope>CQIGP</scope><scope>W94</scope><scope>~WA</scope></search><sort><creationdate>2016</creationdate><title>Platinum-group Mineral (PGM) and Base-metal Sulphide (BMS) Inclusions in Chromitites of the Zedang Ophiolite, Southern Tibet, China and their Petrogenetic Significance</title><author>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-chongqing_primary_6692707693</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>BMS</topic><topic>PGMs</topic><topic>硫化物包裹体</topic><topic>蛇绿岩</topic><topic>西藏南部</topic><topic>金属硫化物</topic><topic>铂族矿物</topic><topic>铬铁矿</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</creatorcontrib><collection>中文科技期刊数据库</collection><collection>中文科技期刊数据库-CALIS站点</collection><collection>中文科技期刊数据库-7.0平台</collection><collection>中文科技期刊数据库-自然科学</collection><collection>中文科技期刊数据库- 镜像站点</collection><jtitle>地质学报:英文版</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>GUO Guolin YANG Jingsui Paul T. ROBINSON LIU Xiaodong XU Xiangzhen XIONG Fahui</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Platinum-group Mineral (PGM) and Base-metal Sulphide (BMS) Inclusions in Chromitites of the Zedang Ophiolite, Southern Tibet, China and their Petrogenetic Significance</atitle><jtitle>地质学报:英文版</jtitle><addtitle>Acta Geologica Sinica</addtitle><date>2016</date><risdate>2016</risdate><volume>90</volume><issue>3</issue><spage>900</spage><epage>912</epage><pages>900-912</pages><issn>1000-9515</issn><eissn>1755-6724</eissn><abstract>Voluminous platinum-group mineral (PGM) inclusions including erlichmanite (Os,Ru)S2, laurite (Ru,Os)S2, and irarsite (Ir, Os,Ru,Rh)AsS, as well as native osmium Os(Ir) and inclusions of base metal sulphides (BMS), including millerite (NiS), heazlewoodite (NiaS2), covellite (CuS) and digenite (Cu3S2), accompanied by native iron, have been identified in chromitites of the Zedang ophiolite, Tibet. The PGMs occur as both inclusions in magnesiochromite grains and as small interstitial granules between them; most are less than 10 ~m in size and vary in shape from euhedral to anhedral. They occur either as single or composite (biphase or polyphase) grains composed solely of PGM, or PGM associated with silicate grains. Os-, Ir-, and Ru-rich PGMs are the common species and Pt-, Pd-, and Rh-rich varieties have not been identified. Sulfur fugacity and temperature appear to be the main factors that controlled the PGE mineralogy during crystallization of the host chromitite in the upper mantle. If the activity of chalcogenides (such as S, and As) is low, PGE clusters will remain suspended in the silicate melt until they can coalesce to form alloys. Under appropriate conditions of fS2 and fO2, PGE alloys might react with the melt to form sulfides-sulfarsenides. Thus, we suggest that the Os, Ir and Ru metallic clusters and alloys in the Zedang chromitites crystallized first under high temperature and low fS2, followed by crystallization of sulphides of the laurite-erlichmanite, solid-solution series as the magma cooled and fS2 increased. The abundance of primary BMS in the chromitites suggests that fS2 reached relatively high values during the final stages of magnesiochromite crystallization. The diversity of the PGE minerals, in combination with differences in the petrological characteristics of the magnesiochromites, suggest different degrees of partial melting, perhaps at different depths in the mantle. The estimated parental magma composition suggests formation in a suprasubduction zone environment, perhaps in a forearc.</abstract></addata></record> |
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| source | Wiley Online Library Journals Frontfile Complete; Alma/SFX Local Collection |
| subjects | BMS PGMs 硫化物包裹体 蛇绿岩 西藏南部 金属硫化物 铂族矿物 铬铁矿 |
| title | Platinum-group Mineral (PGM) and Base-metal Sulphide (BMS) Inclusions in Chromitites of the Zedang Ophiolite, Southern Tibet, China and their Petrogenetic Significance |
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