巴西东北部新元古代蚀变岩的地壳增厚、剥蚀和变质冷却:西冈瓦纳组装的时间尺度

IF 7.2 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Alanielson Ferreira , Gary Stevens , Elton L. Dantas , Reinhardt A. Fuck , Ticiano J.S. dos Santos
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引用次数: 0

摘要

与碰撞造山运动演化有关的先高压后高温的变质作用是现代板块构造的预期压力-温度-时间(P-T-t)路径。然而,即使在新生代造山运动中也很少保留这些 P-T-t 路径。在这一问题上,巴西东北部的坎普格兰德伟晶岩-片麻岩地区展示了一个被阿新世地壳挤压的地壳,其上覆盖着闪长岩岩相的异质逆冲闪长岩。该地区核心的逆冲闪长岩由富锰石榴石+霞石斑岩层与少量闪石+石英+榍石组合形成,而边缘则主要在剪切带内显示富镁石榴石斑岩与斜长石+闪石冠层和霞石+斜长石+正长石共生的肢解透镜体。相平衡模型显示,这些不同的后斜长岩记录了相似的蚀变条件(高达 18 千巴和 660 ± 20 °C)。富锰斜长岩显示了从中生代到古近代的广泛岩浆带状锆石颗粒,以及 607.7 ± 5.4 Ma 的重结晶变质岩颗粒。富镁蚀变岩中的锆石在 2.67 Ga 时结晶,在 2.0 Ga 和 590.1 ± 1.8 Ma 时形成过生缘。锆石中的 REE 缺乏 Eu 异常,在 590.1 ± 1.8 Ma 新元古代的晶粒中显示扁平的 HREE 模式,表明是在埃克洛辉石时代的条件下重结晶的。原位铀-铅榍石年代测定得出了两个较年轻的年龄组,分别为 574.7 ± 0.5 Ma 和 562.8 ± 2.1 Ma。最后,对石榴石岩芯中的金红石包裹体进行原位 U-Pb 测定,得出的年龄为 606.1 ± 4.0 Ma,而逆行冠岩和共生岩中的金红石则得出了 559.0 ± 2.3 至 523.2 ± 1.9 Ma 的一致年龄。因此,结合相平衡模型和 U-Pb 年龄可以看出,变质条件从斜长岩条件(至少 607.7 ± 5.4 至 590 ± 1.8 Ma;锆石测年和斜长岩石榴石中的金红石年龄)逐步变化到近乎等温减压条件(574.7 ± 0.5 Ma;钛铁矿测年和金红石年龄)。其后,在 559.0 ± 2.3 至 523.2 ± 1.9 Ma 之间的较浅地壳水平上发生了最后的掘起和变质冷却(逆冲组中的金红石年龄)。因此,在撞击前至撞击后的高压条件下,减压和变质冷却与西冈瓦纳的最终组装有关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Crustal thickening, exhumation and metamorphic cooling of Neoproterozoic eclogites in NE Brazil: Timescale for the assembly of West Gondwana

Crustal thickening, exhumation and metamorphic cooling of Neoproterozoic eclogites in NE Brazil: Timescale for the assembly of West Gondwana
The high-pressure followed by high-temperature metamorphism related to the evolution of collisional orogens is the expected Pressure-Temperature-time (P-T-t) path for modern-style plate tectonics. However, these P-T-t paths are rarely preserved even in Phanerozoic orogens. In this matter, the Campo Grande migmatite-gneiss area presents an exhumed Archean crust with heterogeneous retrograde eclogites overprinted by amphibolite-facies in NE Brazil. Retrogressed eclogites in the area core are formed by Mn-rich garnet + clinopyroxene porphyroblasts layer with a minor amphibole + quartz + titanite assemblage, whereas the margins display dismembered lenses of Mg-rich garnet porphyroblasts with plagioclase + amphibole coronae and clinopyroxene + plagioclase + ortopyroxene sympleticte mainly within shear zones. Phase equilibria modelling reveals that these distinct retro-eclogites record similar eclogite conditions (up to 18 kbar and 660 ± 20 °C). Mn-rich eclogites display widespread magmatic zoned zircon grains from Mesoarchean to Paleoproterozoic and recrystallized metamorphic grains of 607.7 ± 5.4 Ma. Zircon from Mg-rich eclogites crystallized at 2.67 Ga and overgrowth rims formed at 2.0 Ga and 590.1 ± 1.8 Ma. REE in zircon lack Eu anomaly, displaying flat HREE patterns in 590.1 ± 1.8 Ma Neoproterozoic grains indicate recrystallization under eclogite-facies conditions. In situ U-Pb titanite dating yielded two younger age sets at 574.7 ± 0.5 and 562.8 ± 2.1 Ma. Lastly, in situ U-Pb dating of rutile inclusions in garnet cores present ages of 606.1 ± 4.0 Ma, whereas rutile included in retrograde coronae and sympleticte yielded concordant ages from 559.0 ± 2.3 to 523.2 ± 1.9 Ma. Thus, combined phase equilibria modelling and U-Pb ages reveal a progressive change in metamorphic conditions from eclogite conditions (at least 607.7 ± 5.4 to 590 ± 1.8 Ma; zircon dating and rutile ages included in eclogite garnet) to nearly isothermal decompression (574.7 ± 0.5 Ma; titanite age) of ancient Archean deep crust, which was followed by suggested final exhumation and metamorphic cooling at shallower crustal levels between 559.0 ± 2.3 and 523.2 ± 1.9 Ma (rutile age in retrogressed assemblage). Therefore, the high-pressure conditions followed by decompression and metamorphic cooling during sin- to post-collisional settings were associated with the final assembly of West Gondwana.
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来源期刊
Gondwana Research
Gondwana Research 地学-地球科学综合
CiteScore
12.90
自引率
6.60%
发文量
298
审稿时长
65 days
期刊介绍: Gondwana Research (GR) is an International Journal aimed to promote high quality research publications on all topics related to solid Earth, particularly with reference to the origin and evolution of continents, continental assemblies and their resources. GR is an "all earth science" journal with no restrictions on geological time, terrane or theme and covers a wide spectrum of topics in geosciences such as geology, geomorphology, palaeontology, structure, petrology, geochemistry, stable isotopes, geochronology, economic geology, exploration geology, engineering geology, geophysics, and environmental geology among other themes, and provides an appropriate forum to integrate studies from different disciplines and different terrains. In addition to regular articles and thematic issues, the journal invites high profile state-of-the-art reviews on thrust area topics for its column, ''GR FOCUS''. Focus articles include short biographies and photographs of the authors. Short articles (within ten printed pages) for rapid publication reporting important discoveries or innovative models of global interest will be considered under the category ''GR LETTERS''.
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