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11.
Leonardo Casini Matteo Maino Antonio Langone Giacomo Oggiano Stefania Corvò Joan Reche Estrada Montserrat Liesa 《Journal of Metamorphic Geology》2023,41(1):25-57
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. 相似文献
12.
发育在东南极普里兹湾西南部哈姆峰地区麻粒岩相花岗质片麻岩中的假玄武玻璃沿着近东西向断裂带分布。显微构造特征表明,该地假玄武玻璃基质中普遍发育球粒结构及树枝状、放射状-针状等不同形状及组合的矿物微晶体,说明这些假玄武玻璃是地震断层快速滑移过程中摩擦熔融作用的产物。假玄武玻璃中的微晶体矿物组合大体分为两种,它们分布在构造带不同地段:一种是以"紫苏辉石+斜长石"组合为主,分布于构造带东北部地段;一种是以"黑云母+斜长石+钾长石+石英"的组合为主,分布于构造带西南部地段,说明沿构造带不同部位构造环境及应力分布的不均匀性。同时,微晶体中富铝紫苏辉石的存在,表明假玄武玻璃形成过程及其后期的结晶过程可能处于高温(麻粒岩相)的构造环境下。假玄武玻璃的基质全岩K-Ar年龄为878.1±16.8 Ma,全岩40Ar/39Ar年龄谱系中所记录的年龄值主要集中在925~626 Ma。结合区域对比看,假玄武玻璃应该形成于格林维尔期构造事件。 相似文献
13.
发育在大别造山带东部的假玄武玻璃是区域内NE-SW向断裂带快速滑移形成的构造岩。地质产状、显微构造及岩石化学研究表明,这些假玄武玻璃主要由超碎裂岩化作用所形成。假玄武玻璃及围岩的全岩(包括部分单矿物)K-Ar年龄测定表明,大别造山带的假玄武玻璃形成于81~93Ma之间。本文同时测定了叠加在假玄武玻璃基质之上的多硅白云母的激光^40Ar/^39Ar年龄为78.9Ma。显微构造及所获得的年龄数据显示,这些沿NE-SW向断裂发育的假玄武玻璃是在晚白垩世(80~90Ma)时期伴随着大别造山带整体隆升过程形成的,而与早期板块俯冲过程无关。同时,不同定年方法在数据上的一致性还表明,全岩K-Ar方法在确定某些假玄武玻璃及含假玄武玻璃的断裂构造年代时,可能仍然是一种行之有效的的方法。 相似文献
14.
Laboratory verification of submicron magnetite production in pseudotachylytes: relevance for paleointensity studies 总被引:2,自引:0,他引:2
Pseudotachylytes generally possess stable remanent magnetizations but the processes by which pseudotachylytes are magnetized remain poorly understood. Magnetic hysteresis and scanning electron microscope studies reveal that experimental frictional melting of granites produces dispersed submicron inclusions of weakly interacting pseudo-single-domain (PSD) magnetite, in artificial pseudotachylyte. The magnetite inclusions are absent in the undeformed granite protolith and result from oxidation of Fe in melt-susceptible mafic minerals during the melt-quenched event. The pseudotachylytes acquired a stable thermal remanence in fine-grained PSD magnetites during the rapid cooling of the melt, implying that fine-grained magnetite has the potential for paleointensity determinations of contemporaneous magnetic fields with co-seismic faulting in granitoids. 相似文献