L. Du, Yunying Zhang, Hongli Zhu, Zhao-Yu Zhang, Y. An, C. Yuan, Zongying Huang, Xu-Ping Li, X. Long
{"title":"中国东天山蛇纹岩流体和板岩流体对弧岩浆活动的不同影响:来自Mg-B同位素系统的证据","authors":"L. Du, Yunying Zhang, Hongli Zhu, Zhao-Yu Zhang, Y. An, C. Yuan, Zongying Huang, Xu-Ping Li, X. Long","doi":"10.1144/jgs2023-011","DOIUrl":null,"url":null,"abstract":"\n Fluids are important media for elemental cycling in subduction zones, but the compositions of such fluids remain obscure, especially those derived from dehydration of serpentinite. To better understand the role of subduction zone fluids in arc magmatism from the Chinese Eastern Tianshan (CET), we present Mg and B isotopic data for the arc diorites (e.g., Kalatage and Nanshankou). Our results show that the Kalatage diorites have higher\n \n \n δ\n \n \n 26\n Mg (−0.23 to −0.13‰) and\n \n \n δ\n \n \n 11\n B (−0.04 to +1.08‰) values than the corresponding mantle values, while the Nanshankou diorites display relatively lower\n \n \n δ\n \n \n 26\n Mg (−0.26 to −0.19‰) and\n \n \n δ\n \n \n 11\n B (−10.7 to −2.97‰) values. Since high-temperature magmatic and post-magmatic processes have limited effects on Mg and B isotope fractionation of our samples, their distinct Mg–B isotopic signatures inherited from the mantle sources should be caused by subduction-related metasomatism. Because neither altered oceanic crust (AOC) directly melting nor the incorporation of subducted sediments could induce significant Mg–B isotope fractionation in these rocks, we infer that their variable\n \n \n δ\n \n \n 26\n Mg and\n \n \n δ\n \n \n 11\n B values were probably associated with subduction fluids that were derived from different sources. Specifically, dehydrated fluids from serpentinites possess both high\n \n \n δ\n \n \n 26\n Mg and\n \n \n δ\n \n \n 11\n B values, which resulted in the heavy Mg–B isotopic compositions of the Kalatage diorites, whereas mantle metasomatized by fluids from AOC and subducted sediments were responsible for the Nanshankou rocks with relatively low\n \n \n δ\n \n \n 26\n Mg and\n \n \n δ\n \n \n 11\n B values. Taking into account the different effects of serpentinite-derived and slab-derived fluids in the formation of arc magmatism, subduction zone fluids can be probably an important process in changing the Mg–B isotope composition of mantle sources.\n \n \n Supplementary material:\n https://doi.org/10.6084/m9.figshare.c.6702686\n","PeriodicalId":17320,"journal":{"name":"Journal of the Geological Society","volume":" ","pages":""},"PeriodicalIF":2.6000,"publicationDate":"2023-06-26","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Different effects of serpentinite-derived and slab-derived fluids on arc magmatism in the Chinese Eastern Tianshan: Evidence from Mg–B isotopic systematics\",\"authors\":\"L. Du, Yunying Zhang, Hongli Zhu, Zhao-Yu Zhang, Y. An, C. Yuan, Zongying Huang, Xu-Ping Li, X. Long\",\"doi\":\"10.1144/jgs2023-011\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"\\n Fluids are important media for elemental cycling in subduction zones, but the compositions of such fluids remain obscure, especially those derived from dehydration of serpentinite. To better understand the role of subduction zone fluids in arc magmatism from the Chinese Eastern Tianshan (CET), we present Mg and B isotopic data for the arc diorites (e.g., Kalatage and Nanshankou). Our results show that the Kalatage diorites have higher\\n \\n \\n δ\\n \\n \\n 26\\n Mg (−0.23 to −0.13‰) and\\n \\n \\n δ\\n \\n \\n 11\\n B (−0.04 to +1.08‰) values than the corresponding mantle values, while the Nanshankou diorites display relatively lower\\n \\n \\n δ\\n \\n \\n 26\\n Mg (−0.26 to −0.19‰) and\\n \\n \\n δ\\n \\n \\n 11\\n B (−10.7 to −2.97‰) values. Since high-temperature magmatic and post-magmatic processes have limited effects on Mg and B isotope fractionation of our samples, their distinct Mg–B isotopic signatures inherited from the mantle sources should be caused by subduction-related metasomatism. Because neither altered oceanic crust (AOC) directly melting nor the incorporation of subducted sediments could induce significant Mg–B isotope fractionation in these rocks, we infer that their variable\\n \\n \\n δ\\n \\n \\n 26\\n Mg and\\n \\n \\n δ\\n \\n \\n 11\\n B values were probably associated with subduction fluids that were derived from different sources. 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Different effects of serpentinite-derived and slab-derived fluids on arc magmatism in the Chinese Eastern Tianshan: Evidence from Mg–B isotopic systematics
Fluids are important media for elemental cycling in subduction zones, but the compositions of such fluids remain obscure, especially those derived from dehydration of serpentinite. To better understand the role of subduction zone fluids in arc magmatism from the Chinese Eastern Tianshan (CET), we present Mg and B isotopic data for the arc diorites (e.g., Kalatage and Nanshankou). Our results show that the Kalatage diorites have higher
δ
26
Mg (−0.23 to −0.13‰) and
δ
11
B (−0.04 to +1.08‰) values than the corresponding mantle values, while the Nanshankou diorites display relatively lower
δ
26
Mg (−0.26 to −0.19‰) and
δ
11
B (−10.7 to −2.97‰) values. Since high-temperature magmatic and post-magmatic processes have limited effects on Mg and B isotope fractionation of our samples, their distinct Mg–B isotopic signatures inherited from the mantle sources should be caused by subduction-related metasomatism. Because neither altered oceanic crust (AOC) directly melting nor the incorporation of subducted sediments could induce significant Mg–B isotope fractionation in these rocks, we infer that their variable
δ
26
Mg and
δ
11
B values were probably associated with subduction fluids that were derived from different sources. Specifically, dehydrated fluids from serpentinites possess both high
δ
26
Mg and
δ
11
B values, which resulted in the heavy Mg–B isotopic compositions of the Kalatage diorites, whereas mantle metasomatized by fluids from AOC and subducted sediments were responsible for the Nanshankou rocks with relatively low
δ
26
Mg and
δ
11
B values. Taking into account the different effects of serpentinite-derived and slab-derived fluids in the formation of arc magmatism, subduction zone fluids can be probably an important process in changing the Mg–B isotope composition of mantle sources.
Supplementary material:
https://doi.org/10.6084/m9.figshare.c.6702686
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