Arc-like magmatism in syn- to post-collisional setting: The Ediacaran Angra Fria Magmatic Complex (NW Namibia) and its cross-Atlantic correlatives in the south Brazilian Florianópolis Batholith

IF 2.1 3区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Vojtěch Janoušek , Luana Moreira Florisbal , Jiří Konopásek , Petr Jeřábek , Maria de Fátima Bitencourt , Petr Gadas , Vojtěch Erban , Veronika Kopačková-Strnadová
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引用次数: 0

Abstract

Ediacaran syn-tectonic plutonic rocks (amphibole gabbros, quartz diorites/tonalites to biotite- and muscovite-bearing granites) of the Angra Fria Magmatic Complex (Kaoko Belt, north-western Namibia) belong to two compositionally similar, magnesian, transitional tholeiitic–calc-alkaline suites, the Older (∼625–620 Ma) and the Younger (∼585–575 Ma). Both have counterparts in the broadly contemporaneous Florianópolis Batholith (southern Brazil), from which they were separated during the Cretaceous opening of the southern Atlantic. In the Angra Fria Magmatic Complex, the only unequivocal mantle contributions are identified in mingling zones of the Younger Suite and hybrid mafic–intermediate dykes of uncertain age. Previously published Hf-in-zircon isotopic data, together with new whole-rock geochemical and Sr–Nd isotopic signatures, underline an important role of crustal anatexis of a material with late Palaeoproterozoic to early Mesoproterozoic mean crustal residence (1.9–1.5 Ga). This interval resembles some of the published Nd model ages for Tonian ‘Adamastor Rift’-related felsic magmatic rocks in the Namibian Coastal and Uruguayan Punta del Este terranes. In detail, the Older Suite probably originated mainly by fluid-present melting of metabasalts and metatonalites, followed by (near) closed-system fractional crystallization (with or without accumulation) of amphibole ± plagioclase. For the Younger Suite, the principal process was the dehydration melting of relatively felsic lower crustal protoliths (metagreywackes or intermediate–acid orthogneisses >> metapelites), leaving garnet in the residue. Based on the geological context, the conspicuous enrichment of hydrous-fluid-mobile large ion lithophile over the conservative high field strength elements is not interpreted through a classic model of oceanic plate subduction, devolatilization, and fluxed-melting of the overriding mantle wedge. Instead, it is thought to reflect high-grade metamorphism of deeply buried continental crust and attendant water-fluxed melting of the overlying crustal lithologies, connected with inversion of the Tonian ‘Adamastor Rift’.

Abstract Image

同-后碰撞背景下的弧状岩浆作用:埃迪卡拉纪安格拉-弗里亚岩浆复合体(纳米比亚西北部)及其在巴西南部的跨大西洋相关岩体Florianópolis基岩
Angra Fria岩浆杂岩(Kaoko带,纳米比亚西北部)的埃迪卡拉纪同构造深成岩(角闪辉长岩、石英闪长岩/英云闪长岩至含黑云母和白云母的花岗岩)属于两个成分相似的镁质过渡拉斑玄武岩-钙碱性岩套,即较老的(~625–620 Ma)和较年轻的(~585–575 Ma)。两者在大致同时代的Florianópolis岩基(巴西南部)都有对应物,在白垩纪南大西洋开放期间,它们与岩基分离。在Angra Fria岩浆杂岩中,唯一明确的地幔贡献是在年轻岩组和年龄不确定的混合镁铁质-中间岩脉的混合带中发现的。先前发表的锆石中的Hf同位素数据,以及新的全岩地球化学和Sr–Nd同位素特征,强调了具有古元古代晚期至中元古代早期平均地壳驻留(1.9–1.5 Ga)的物质的地壳锐钛矿的重要作用。该区间类似于纳米比亚海岸和乌拉圭Punta del Este地体中Tonian‘Adamastor Rift’相关长英质岩浆岩的一些已发表Nd模型年龄。详细地说,较老的岩套可能主要来源于变玄武岩和变英云闪长岩的流体熔融,然后是角闪石±斜长石的(近)封闭系统分级结晶(有或没有积累)。对于年轻岩组,主要过程是相对长英质的下地壳原岩(变质杂砂岩或中酸性正片麻岩>;>;变质精英)的脱水熔融,在残留物中留下石榴石。基于地质背景,含水流体流动的大离子亲石岩明显富集于保守的高场强元素之上,这并不是通过海洋板块俯冲、脱挥发分和覆盖地幔楔的熔融熔融的经典模型来解释的。相反,它被认为反映了深埋大陆地壳的高级变质作用,以及随之而来的上覆地壳岩性的水溶性熔融,这与托尼阶“阿达马斯托裂谷”的反转有关。
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来源期刊
Journal of Geodynamics
Journal of Geodynamics 地学-地球化学与地球物理
CiteScore
4.60
自引率
0.00%
发文量
21
审稿时长
6-12 weeks
期刊介绍: The Journal of Geodynamics is an international and interdisciplinary forum for the publication of results and discussions of solid earth research in geodetic, geophysical, geological and geochemical geodynamics, with special emphasis on the large scale processes involved.
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