Constraints of boron and oxygen stable isotopes on dehydration fluids, sediment-derived melts, and crustal assimilation of the Toba volcanic system (Indonesia)

IF 4.8 1区 地球科学 Q1 GEOLOGY
Geology Pub Date : 2023-12-15 DOI:10.1130/g51690.1
Ping-Ping Liu, Dian-Bing Wang, Mei-Fu Zhou, Xian-Hua Li, Qiuli Li, G. Gaetani, B. Monteleone, Vadim Kamenetsky
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Abstract

Arc magmas are produced from the mantle wedge, with possible addition of fluids and melts derived from serpentinites and sediments in the subducting slab. Identification of various sources and their relevant contributions to such magmas is challenging; in particular, at continental arcs where crustal assimilation may overprint initial geochemical signatures. This study presents oxygen isotopic compositions of zoned olivine grains from post-caldera basalts and boron contents and isotopes of these basalts and glassy melt inclusions hosted in quartz and clinopyroxene of silicic tuffs in the Toba volcanic system, Indonesia. High-magnesian (≥87 mol% Fo [forsterite]) cores of olivine in the basalts have δ18O values ranging from 5.12‰ to 6.14‰, indicating that the mantle source underneath Toba is variably enriched in 18O. Olivine with <87 mol% Fo has highly variable (4.8−7.2‰), but overall increased, δ18O values, interpreted to reflect assimilation of high δ18O crustal materials during fractional crystallization. Mass balance calculations constrain the overall volume of crustal assimilation for the basalts as ≤13%. The processes responsible for the 18O-enriched basaltic melts are further constrained by boron data that indicate the addition of <0.1 wt% fluids to the mantle, >40% of the fluids being derived from serpentinites and others from altered oceanic crust and sediments. This amount of fluids can increase δ18O of the magma by only ∼0.02‰. Approximately 6−9% sediment-derived melt hybridization in the mantle wedge is further needed to yield basaltic melts with δ18O values in equilibrium with those of the high-Fo olivine cores. The cogenetic silicic tuffs, on the other hand, seem to record a higher proportion of fluid addition dominated by sediment-derived fluids to the mantle source, in addition to crustal assimilation. Our reconnaissance study therefore demonstrates the application of combined B and O isotopes to differentiate between melts and fluids derived from serpentinites and sediments in the subducted slab—an application that can be applied to arc magmas worldwide.
硼和氧稳定同位素对多巴火山系统(印度尼西亚)脱水流体、沉积物衍生熔体和地壳同化的制约作用
弧岩浆产生于地幔楔块,可能还有来自俯冲板块中蛇纹岩和沉积物的流体和熔体。确定此类岩浆的各种来源及其相关贡献具有挑战性;特别是在大陆弧,地壳同化可能会覆盖最初的地球化学特征。本研究介绍了来自后火山口玄武岩的带状橄榄石颗粒的氧同位素组成,以及这些玄武岩和印度尼西亚多巴火山系统硅质凝灰岩的石英和挛辉石中玻璃状熔融包裹体的硼含量和同位素。玄武岩中橄榄石的高镁核(≥87 mol% Fo [sterite])的δ18O值范围为5.12‰至6.14‰,表明多巴火山下的地幔源不同程度地富含18O。40%的流体来自蛇纹岩,其他则来自蚀变的大洋地壳和沉积物。这些流体只能使岩浆的δ18O增加0.02‰。还需要地幔楔中大约6-9%的沉积物衍生熔体杂化,才能产生δ18O值与高Fo橄榄石岩芯平衡的玄武岩熔体。另一方面,同生硅质凝灰岩似乎记录了较高比例的流体添加,除地壳同化外,主要是沉积物衍生的流体添加到地幔源。因此,我们的勘察研究证明了 B 和 O 组合同位素在区分来自俯冲板块中蛇纹岩和沉积物的熔体和流体方面的应用--这种应用可适用于世界各地的弧岩浆。
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来源期刊
Geology
Geology 地学-地质学
CiteScore
10.00
自引率
3.40%
发文量
228
审稿时长
6.2 months
期刊介绍: Published since 1973, Geology features rapid publication of about 23 refereed short (four-page) papers each month. Articles cover all earth-science disciplines and include new investigations and provocative topics. Professional geologists and university-level students in the earth sciences use this widely read journal to keep up with scientific research trends. The online forum section facilitates author-reader dialog. Includes color and occasional large-format illustrations on oversized loose inserts.
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