Petrogenesis of the Harsin–Sahneh serpentinized peridotites along the Zagros suture zone, western Iran: new evidence for mantle metasomatism due to oceanic slab flux

The Harsin–Sahneh serpentinized peridotites are widely exposed along the Zagros suture zone in the western region of Iran and are considered to represent remnants of Neo-Tethys oceanic lithosphere at the junction of the Arabian and Iran Plates. These rocks are characterized by low contents of SiO2 (...

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Veröffentlicht in:	Geological magazine 2019-05, Vol.156 (5), p.772-800
Hauptverfasser:	NOURI, FATEMEH, ASAHARA, YOSHIHIRO, AZIZI, HOSSEIN, TSUBOI, MOTOHIRO
Format:	Artikel
Sprache:	eng
Schlagworte:	affinities alkali metals alkaline earth metals Aluminum oxide aluminum oxides Arabian Plate Asia Basalt basalts Chemical composition Cretaceous depletion Earth Earth mantle Geophysics Harsin-Sahneh Complex Heterogeneity igneous and metamorphic rocks igneous rocks Iran Iranian Plate isotope ratios isotopes lithophile elements Lithosphere Magma mantle melts Mesozoic metals metasomatism mid-ocean ridge basalts Middle East mineral composition Neotethys oceanic lithosphere ophiolite complexes Organic chemistry Original Article oxides Paleoceanography partial melting peridotites Petrogenesis Petrology Plate tectonics plutonic rocks radioactive isotopes Rare earth elements rare earths Ratios Rb-87/Sr-86 Rock Rocks rubidium Silica Silicon dioxide solid Earth (tectonophysics) stable isotopes strontium Strontium 87 Strontium isotopes Subduction Subduction (geology) Subduction zones suture zones Tectonics Titanium dioxide Trace elements Triassic ultramafics Upper Cretaceous Upper mantle Upper Triassic volcanic rocks water-rock interaction western Iran Zagros
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description	The Harsin–Sahneh serpentinized peridotites are widely exposed along the Zagros suture zone in the western region of Iran and are considered to represent remnants of Neo-Tethys oceanic lithosphere at the junction of the Arabian and Iran Plates. These rocks are characterized by low contents of SiO2 (38.8–43.5 wt%), Al2O3 (0.1–3.8 wt%), CaO (0.2–8.2 wt%) and TiO2 (< 1 wt%) and high MgO contents (31.1–46.0 wt%). Their enrichments of large ion lithophile elements and light rare earth elements, with high 87Sr/86Sr(i) values (0.7036–0.7109) and relatively high variations in their εNd(t) (–7.5 to +7.8) values, indicate that the Harsin–Sahneh peridotites were metasomatized by flux released from the oceanic subducting slab in an active margin. The chemical compositions and isotopic ratios of these rocks suggest that they were formed as residue of mid-oceanic ridge basalt in the lithosphere that was then subsequently re-melted and metasomatized in a supra-subduction zone system. The occurrence of both mid-oceanic ridge and supra-subduction zone-type peridotites suggests that the heterogeneity of the upper mantle may have occurred due to the different ratios of partial melting and melt–rock reaction processes in different tectonic settings within the Neo-Tethys realm. The Harsin–Sahneh peridotites provide a good explanation of multistage melt extraction as well as melt–rock and metasomatic reactions in the mantle sequence of the Zagros ophiolite complex.
doi_str_mv	10.1017/S0016756818000201
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These rocks are characterized by low contents of SiO2 (38.8–43.5 wt%), Al2O3 (0.1–3.8 wt%), CaO (0.2–8.2 wt%) and TiO2 (< 1 wt%) and high MgO contents (31.1–46.0 wt%). Their enrichments of large ion lithophile elements and light rare earth elements, with high 87Sr/86Sr(i) values (0.7036–0.7109) and relatively high variations in their εNd(t) (–7.5 to +7.8) values, indicate that the Harsin–Sahneh peridotites were metasomatized by flux released from the oceanic subducting slab in an active margin. The chemical compositions and isotopic ratios of these rocks suggest that they were formed as residue of mid-oceanic ridge basalt in the lithosphere that was then subsequently re-melted and metasomatized in a supra-subduction zone system. The occurrence of both mid-oceanic ridge and supra-subduction zone-type peridotites suggests that the heterogeneity of the upper mantle may have occurred due to the different ratios of partial melting and melt–rock reaction processes in different tectonic settings within the Neo-Tethys realm. The Harsin–Sahneh peridotites provide a good explanation of multistage melt extraction as well as melt–rock and metasomatic reactions in the mantle sequence of the Zagros ophiolite complex.</description><identifier>ISSN: 0016-7568</identifier><identifier>EISSN: 1469-5081</identifier><identifier>DOI: 10.1017/S0016756818000201</identifier><language>eng</language><publisher>Cambridge, UK: Cambridge University Press</publisher><subject>affinities ; alkali metals ; alkaline earth metals ; Aluminum oxide ; aluminum oxides ; Arabian Plate ; Asia ; Basalt ; basalts ; Chemical composition ; Cretaceous ; depletion ; Earth ; Earth mantle ; Geophysics ; Harsin-Sahneh Complex ; Heterogeneity ; igneous and metamorphic rocks ; igneous rocks ; Iran ; Iranian Plate ; isotope ratios ; isotopes ; lithophile elements ; Lithosphere ; Magma ; mantle ; melts ; Mesozoic ; metals ; metasomatism ; mid-ocean ridge basalts ; Middle East ; mineral composition ; Neotethys ; oceanic lithosphere ; ophiolite complexes ; Organic chemistry ; Original Article ; oxides ; Paleoceanography ; partial melting ; peridotites ; Petrogenesis ; Petrology ; Plate tectonics ; plutonic rocks ; radioactive isotopes ; Rare earth elements ; rare earths ; Ratios ; Rb-87/Sr-86 ; Rock ; Rocks ; rubidium ; Silica ; Silicon dioxide ; solid Earth (tectonophysics) ; stable isotopes ; strontium ; Strontium 87 ; Strontium isotopes ; Subduction ; Subduction (geology) ; Subduction zones ; suture zones ; Tectonics ; Titanium dioxide ; Trace elements ; Triassic ; ultramafics ; Upper Cretaceous ; Upper mantle ; Upper Triassic ; volcanic rocks ; water-rock interaction ; western Iran ; Zagros</subject><ispartof>Geological magazine, 2019-05, Vol.156 (5), p.772-800</ispartof><rights>Copyright © Cambridge University Press 2018</rights><rights>GeoRef, Copyright 2020, American Geosciences Institute. 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Mag</addtitle><description>The Harsin–Sahneh serpentinized peridotites are widely exposed along the Zagros suture zone in the western region of Iran and are considered to represent remnants of Neo-Tethys oceanic lithosphere at the junction of the Arabian and Iran Plates. These rocks are characterized by low contents of SiO2 (38.8–43.5 wt%), Al2O3 (0.1–3.8 wt%), CaO (0.2–8.2 wt%) and TiO2 (< 1 wt%) and high MgO contents (31.1–46.0 wt%). Their enrichments of large ion lithophile elements and light rare earth elements, with high 87Sr/86Sr(i) values (0.7036–0.7109) and relatively high variations in their εNd(t) (–7.5 to +7.8) values, indicate that the Harsin–Sahneh peridotites were metasomatized by flux released from the oceanic subducting slab in an active margin. The chemical compositions and isotopic ratios of these rocks suggest that they were formed as residue of mid-oceanic ridge basalt in the lithosphere that was then subsequently re-melted and metasomatized in a supra-subduction zone system. The occurrence of both mid-oceanic ridge and supra-subduction zone-type peridotites suggests that the heterogeneity of the upper mantle may have occurred due to the different ratios of partial melting and melt–rock reaction processes in different tectonic settings within the Neo-Tethys realm. The Harsin–Sahneh peridotites provide a good explanation of multistage melt extraction as well as melt–rock and metasomatic reactions in the mantle sequence of the Zagros ophiolite complex.</description><subject>affinities</subject><subject>alkali metals</subject><subject>alkaline earth metals</subject><subject>Aluminum oxide</subject><subject>aluminum oxides</subject><subject>Arabian Plate</subject><subject>Asia</subject><subject>Basalt</subject><subject>basalts</subject><subject>Chemical composition</subject><subject>Cretaceous</subject><subject>depletion</subject><subject>Earth</subject><subject>Earth mantle</subject><subject>Geophysics</subject><subject>Harsin-Sahneh Complex</subject><subject>Heterogeneity</subject><subject>igneous and metamorphic rocks</subject><subject>igneous rocks</subject><subject>Iran</subject><subject>Iranian Plate</subject><subject>isotope ratios</subject><subject>isotopes</subject><subject>lithophile elements</subject><subject>Lithosphere</subject><subject>Magma</subject><subject>mantle</subject><subject>melts</subject><subject>Mesozoic</subject><subject>metals</subject><subject>metasomatism</subject><subject>mid-ocean ridge basalts</subject><subject>Middle East</subject><subject>mineral composition</subject><subject>Neotethys</subject><subject>oceanic lithosphere</subject><subject>ophiolite complexes</subject><subject>Organic chemistry</subject><subject>Original Article</subject><subject>oxides</subject><subject>Paleoceanography</subject><subject>partial melting</subject><subject>peridotites</subject><subject>Petrogenesis</subject><subject>Petrology</subject><subject>Plate tectonics</subject><subject>plutonic rocks</subject><subject>radioactive isotopes</subject><subject>Rare earth elements</subject><subject>rare earths</subject><subject>Ratios</subject><subject>Rb-87/Sr-86</subject><subject>Rock</subject><subject>Rocks</subject><subject>rubidium</subject><subject>Silica</subject><subject>Silicon dioxide</subject><subject>solid Earth (tectonophysics)</subject><subject>stable isotopes</subject><subject>strontium</subject><subject>Strontium 87</subject><subject>Strontium isotopes</subject><subject>Subduction</subject><subject>Subduction (geology)</subject><subject>Subduction zones</subject><subject>suture zones</subject><subject>Tectonics</subject><subject>Titanium dioxide</subject><subject>Trace elements</subject><subject>Triassic</subject><subject>ultramafics</subject><subject>Upper Cretaceous</subject><subject>Upper mantle</subject><subject>Upper Triassic</subject><subject>volcanic rocks</subject><subject>water-rock interaction</subject><subject>western 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Harsin–Sahneh serpentinized peridotites along the Zagros suture zone, western Iran: new evidence for mantle metasomatism due to oceanic slab flux</title><author>NOURI, FATEMEH ; ASAHARA, YOSHIHIRO ; AZIZI, HOSSEIN ; TSUBOI, MOTOHIRO</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a442t-19addd9dc56d48d7b36fd67b5d4aa75d37df1a2112f5e9622417af61acd46fea3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2019</creationdate><topic>affinities</topic><topic>alkali metals</topic><topic>alkaline earth metals</topic><topic>Aluminum oxide</topic><topic>aluminum oxides</topic><topic>Arabian Plate</topic><topic>Asia</topic><topic>Basalt</topic><topic>basalts</topic><topic>Chemical composition</topic><topic>Cretaceous</topic><topic>depletion</topic><topic>Earth</topic><topic>Earth mantle</topic><topic>Geophysics</topic><topic>Harsin-Sahneh Complex</topic><topic>Heterogeneity</topic><topic>igneous and metamorphic 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Mag</addtitle><date>2019-05-01</date><risdate>2019</risdate><volume>156</volume><issue>5</issue><spage>772</spage><epage>800</epage><pages>772-800</pages><issn>0016-7568</issn><eissn>1469-5081</eissn><abstract>The Harsin–Sahneh serpentinized peridotites are widely exposed along the Zagros suture zone in the western region of Iran and are considered to represent remnants of Neo-Tethys oceanic lithosphere at the junction of the Arabian and Iran Plates. These rocks are characterized by low contents of SiO2 (38.8–43.5 wt%), Al2O3 (0.1–3.8 wt%), CaO (0.2–8.2 wt%) and TiO2 (< 1 wt%) and high MgO contents (31.1–46.0 wt%). Their enrichments of large ion lithophile elements and light rare earth elements, with high 87Sr/86Sr(i) values (0.7036–0.7109) and relatively high variations in their εNd(t) (–7.5 to +7.8) values, indicate that the Harsin–Sahneh peridotites were metasomatized by flux released from the oceanic subducting slab in an active margin. The chemical compositions and isotopic ratios of these rocks suggest that they were formed as residue of mid-oceanic ridge basalt in the lithosphere that was then subsequently re-melted and metasomatized in a supra-subduction zone system. The occurrence of both mid-oceanic ridge and supra-subduction zone-type peridotites suggests that the heterogeneity of the upper mantle may have occurred due to the different ratios of partial melting and melt–rock reaction processes in different tectonic settings within the Neo-Tethys realm. The Harsin–Sahneh peridotites provide a good explanation of multistage melt extraction as well as melt–rock and metasomatic reactions in the mantle sequence of the Zagros ophiolite complex.</abstract><cop>Cambridge, UK</cop><pub>Cambridge University Press</pub><doi>10.1017/S0016756818000201</doi><tpages>29</tpages></addata></record>
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subjects	affinities alkali metals alkaline earth metals Aluminum oxide aluminum oxides Arabian Plate Asia Basalt basalts Chemical composition Cretaceous depletion Earth Earth mantle Geophysics Harsin-Sahneh Complex Heterogeneity igneous and metamorphic rocks igneous rocks Iran Iranian Plate isotope ratios isotopes lithophile elements Lithosphere Magma mantle melts Mesozoic metals metasomatism mid-ocean ridge basalts Middle East mineral composition Neotethys oceanic lithosphere ophiolite complexes Organic chemistry Original Article oxides Paleoceanography partial melting peridotites Petrogenesis Petrology Plate tectonics plutonic rocks radioactive isotopes Rare earth elements rare earths Ratios Rb-87/Sr-86 Rock Rocks rubidium Silica Silicon dioxide solid Earth (tectonophysics) stable isotopes strontium Strontium 87 Strontium isotopes Subduction Subduction (geology) Subduction zones suture zones Tectonics Titanium dioxide Trace elements Triassic ultramafics Upper Cretaceous Upper mantle Upper Triassic volcanic rocks water-rock interaction western Iran Zagros
title	Petrogenesis of the Harsin–Sahneh serpentinized peridotites along the Zagros suture zone, western Iran: new evidence for mantle metasomatism due to oceanic slab flux
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