HTLP metamorphism and fluid-fluxed melting during multistage anatexis of continental crust (N Sardinia, Italy)

IF 3.5 2区 地球科学 Q1 GEOLOGY
Leonardo Casini, Matteo Maino, Antonio Langone, Giacomo Oggiano, Stefania Corvò, Joan Reche Estrada, Montserrat Liesa
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引用次数: 4

Abstract

The Variscan high-grade metamorphic basement of northern Sardinia and southern Corsica record lower Carboniferous anatexis related to post-collisional decompression of the orogen. Migmatites exposed in the Punta Bianca locality (Italy) consist of quartz + biotite + plagioclase + K-feldspar orthogneisses, garnet and cordierite-bearing diatexite and metatexites, derived from metasediments. Field evidence, petrographic observations, ELA-ICP-MS zircon and monazite dating and pseudosection modelling suggest that anatexis was apparently episodic involving two main stages of partial melting. Using pseudosection modelling, we infer that the first stage of partial melting is in the upper amphibolite facies (~0.45 GPa at ~740°C). Cordierite overgrowths replacing sillimanite, combined with the composition of plagioclase and K-feldspar, suggest decompression followed cooling below the solidus at low pressures of ~0.3 GPa. The age of the first anatectic event is not precisely constrained because of extensive resetting of the isotopic systems during the second melting stage, yet few zircons preserve a lower Carboniferous age which is consistent with the regional dataset. This lower Carboniferous migmatitic fabric is offset by a network of pseudotachylyte-bearing faults suggestive of cooling to greenschist facies conditions. Garnet/cordierite-bearing diatexites incorporate fragments of pseudotachylite-bearing orthogneiss and metatexites. Pseudosection modelling indicates nearly isobaric re-heating up to ~750°C, followed by further cooling below the solidus. The inferred P–T path is consistent with decompression and cooling of the Variscan crust through post-collisional extension and collapse of the thickened orogenic crust, followed by nearly isobaric re-heating at low pressures (~0.3 GPa) yielding to a second melting stage under LP-HT conditions. U/Th-Pb monazite ages for diatexite migmatites indicate an upper bound of 310–316 Ma for the second melting stage, suggesting that the second melting stage is coincident with the regional phase of crustal shearing. The cause of the high geothermal gradient required for re-heating during the second melting stage is unknown but likely requires some heat source that was probably related to dissipation of mechanical work within crustal-scale shear zones. According to this interpretation, some upper Carboniferous peraluminous granite precursors of the Corsica–Sardinia Batholith could be the outcome rather than the cause of the late-Variscan high-T metamorphism.

Abstract Image

大陆地壳多级锐钛矿作用期间的HTLP变质作用和流体熔融作用(意大利撒丁岛北部)
撒丁岛北部和科西嘉岛南部的Variscan高变质基底记录了与碰撞后造山带减压有关的下石炭世深熔作用。在Punta Bianca地区(意大利)暴露的混长岩由石英+黑云母+斜长石+钾长石正长石,含石榴石和堇青石的闪长岩和偏长岩组成,来源于变质沉积物。现场证据、岩石学观察、ELA - ICP - MS锆石和独居石定年和伪剖面模拟表明,深熔作用明显是断断续续的,涉及两个主要的部分熔融阶段。利用伪剖面模拟,我们推断第一阶段部分熔融发生在上角闪岩相(~0.45 GPa, ~740℃)。堇青石过度生长取代硅线石,结合斜长石和钾长石的组成,表明在~0.3 GPa的低压下冷却至固相以下后减压。由于在第二次熔融阶段对同位素系统进行了广泛的重置,因此第一次熔蚀事件的年龄并没有得到精确的限制,但很少有锆石保留了较低石炭世的年龄,这与区域数据一致。下石炭世的混染岩构造被一组含假硅酸盐的断裂网络所抵消,这表明它们的相条件已冷却至绿片岩。含石榴石/堇青石的双辉长岩结合了含伪水晶石的正长岩和偏辉长岩的碎片。伪截面模型表明,接近等压再加热至~750°C,然后进一步冷却至固相以下。推断的P-T路径与Variscan地壳通过碰撞后的伸展和增厚的造山带地壳的坍塌而进行的减压和冷却相一致,然后在低压(~0.3 GPa)下进行近等压再加热,从而在LP - HT条件下产生第二次熔融阶段。闪长杂岩的U/Th‐Pb独居石年龄在310 ~ 316 Ma之间,表明第二次熔融期与区域地壳剪切期重合。在第二次融化阶段重新加热所需的高地温梯度的原因尚不清楚,但可能需要一些热源,这可能与地壳尺度剪切带内机械功的耗散有关。根据这一解释,科西嘉-撒丁岛基的一些上石炭世过铝质花岗岩前体可能是晚Variscan高T变质作用的结果而不是原因。
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来源期刊
CiteScore
6.60
自引率
11.80%
发文量
57
审稿时长
6-12 weeks
期刊介绍: The journal, which is published nine times a year, encompasses the entire range of metamorphic studies, from the scale of the individual crystal to that of lithospheric plates, including regional studies of metamorphic terranes, modelling of metamorphic processes, microstructural and deformation studies in relation to metamorphism, geochronology and geochemistry in metamorphic systems, the experimental study of metamorphic reactions, properties of metamorphic minerals and rocks and the economic aspects of metamorphic terranes.
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