基于U-Pb锆石研究的Choiyoi花岗岩岩浆活动的生成和演化,科尔登德尔波蒂略,额叶科迪勒拉山系(阿根廷)

IF 1.7 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Juan A. Dahlquist , Matías M. Morales Cámera , Gilmara Santos da Cruz , Miguel A.S. Basei , Juan A. Moreno , Sebastián Rocher , Hugo Tickyj , Claudia R. Passarelli
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引用次数: 0

摘要

根据从属于钙碱性岩套的Cerro Punta Blanca岩体(CPB)的一个样本(PBL-109)中获得的相关地质年代U-Pb锆石数据集(n = 47),我们证实了该二叠纪岩浆活动的长期发展,以及该岩浆活动的三个主要结晶事件:278±1 Ma、283±2 Ma和289±2 Ma,这三个结晶事件出露于阿根廷科迪勒拉峰(Cordillera Frontal,CF)的Cordón del Portillo地区。这些年龄可归入Choiyoi岩浆记录的下部(约290-265 Ma),而289 Ma的年龄代表了Choiyoi岩浆的已知最古老年龄,表明该岩浆活动开始于阿尔廷斯基时期。考虑到这些地质年代数据,我们推测存在一个深淤泥储层,在该储层中,长期的岩浆活动使得前晶的结晶时间延长(约 283-289 Ma)。母岩浆从蘑菇储层区的迁移发生在接近成岩期的时候,最终在浅层形成了一个短暂的岩浆腔,锆石自晶在此结晶(约 278 Ma)。个别样本中报告的年龄谱支持在条件有利时(如热成熟地壳)大规模岩浆迁移的观点。根据这一观点,所研究的 "老 "彩耀岩浆活动代表了一个持续 11 Ma 的连续岩浆活动,对应于一个单一的岩浆事件,而不是不同时期的岩浆活动和随后的岩浆喷发。在Cerro Bayo岩浆岩(MH-0113)的一个样本中,记录了一个较晚的碱性钙质岩浆活动,时间为265 ± 4 Ma,这可能代表了Choiyoi岩浆活动下段的结束。锆石中的全岩 Sm-Nd、Rb-Sr 和 Lu-Hf 数据,以及所研究的火成岩和来自 CPB 的继承锆石的年龄报告;加上在智利石炭纪增生复合体中发现的碎屑锆石的同位素数据和年龄,表明该地区二叠纪母岩浆的来源是主要由泥盆纪和石炭纪岩石形成的异质大陆地壳,可能与岩浆弧有关。不过,也应考虑到智利石炭纪增生复合体对母岩浆的一些贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Generation and evolution of the Choiyoi granitic magmatism based on U-Pb zircon studies, Cordón del Portillo, Frontal Cordillera (Argentina)

Generation and evolution of the Choiyoi granitic magmatism based on U-Pb zircon studies, Cordón del Portillo, Frontal Cordillera (Argentina)

Based on a relevant geochronological U-Pb zircon dataset (n = 47) from a sample (PBL-109) of the Cerro Punta Blanca pluton (CPB), which is part of a calc-alkaline suite, we corroborate the development of protracted magmatic activity with three major crystallization events for this Permian magmatism: 278 ± 1, 283 ± 2, and 289 ± 2 Ma, which outcrop in the Cordón del Portillo, Cordillera Frontal (CF) of Argentina. These ages can be assigned to the lower section of the magmatic record of the Choiyoi magmatism (ca., 290-265 Ma), while the age of 289 Ma represents the oldest known age for the Choiyoi, indicating the start of this magmatism during the Artinskiense. Considering these geochronological data, we postulate the presence of a deep mush reservoir where protracted magmatic activity permitted the prolonged crystallization of antecrysts (ca. 283–289 Ma). Migration of the parental magma from the mush reservoir zone occurred near the time of emplacement and culminated in the formation of an ephemeral magma chamber at shallow levels, where zircon autocrysts crystallized (ca. 278 Ma). Age spectra reported within individual samples support the idea of massive magma migration when conditions were favorable (e.g., thermally matured crust). In this view, the studied “older” Choiyoi magmatism represents a continuous magmatic event lasting 11 Ma and corresponds to a single magmatic episode rather than different periods of magmatic activity and subsequent emplacements. A later alkali-calcic magmatic event is recorded at 265 ± 4 Ma from a sample of the Cerro Bayo pluton (MH-0113), which could represent the end of the lower section of the Choiyoi magmatism. Whole-rock Sm-Nd, Rb-Sr, and Lu-Hf data in zircon, along with ages reported for the studied igneous and inherited zircon from the CPB; together with isotopic data and ages from the detrital zircon found in the Carboniferous accretionary complex of Chile, indicate that the source of the Permian parental magma in this region was a heterogeneous continental crust mainly formed by Devonian and Carboniferous rocks, related probably to a magmatic arc. However, some contribution from the Carboniferous accretionary complex of Chile to the parental magma should be consider.

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来源期刊
Journal of South American Earth Sciences
Journal of South American Earth Sciences 地学-地球科学综合
CiteScore
3.70
自引率
22.20%
发文量
364
审稿时长
6-12 weeks
期刊介绍: Papers must have a regional appeal and should present work of more than local significance. Research papers dealing with the regional geology of South American cratons and mobile belts, within the following research fields: -Economic geology, metallogenesis and hydrocarbon genesis and reservoirs. -Geophysics, geochemistry, volcanology, igneous and metamorphic petrology. -Tectonics, neo- and seismotectonics and geodynamic modeling. -Geomorphology, geological hazards, environmental geology, climate change in America and Antarctica, and soil research. -Stratigraphy, sedimentology, structure and basin evolution. -Paleontology, paleoecology, paleoclimatology and Quaternary geology. New developments in already established regional projects and new initiatives dealing with the geology of the continent will be summarized and presented on a regular basis. Short notes, discussions, book reviews and conference and workshop reports will also be included when relevant.
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