Metamorphic history of amphibolite facies metapelites from the Southern margin of the Limpopo Belt: In situ U-Pb dating of Zircon, monazite and rutile

IF 3.2 2区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Precambrian Research Pub Date : 2024-09-17 DOI:10.1016/j.precamres.2024.107566
Alanielson Ferreira , Gary Stevens , Jean-François Moyen , Riana Rossouw , Hugo Dominguez
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Abstract

The Southern Marginal Zone (SMZ) comprises, in part, Archean granulite facies metapelitic rocks deposited at ∼ 2733 Ma and metamorphosed to granulite facies at ∼ 2713 Ma of the Limpopo Belt in direct contact with the Kaapvaal craton. The SMZ also contains amphibolite facies metapelites within a fragment that is in direct contact with the thrust-faulted tectonic boundary with the Kaapvaal craton. These metapelites are proposed to represent former granulites that were comprehensively rehydrated under amphibolite facies. However, no previous study has directly investigated the conditions of metamorphism or timing of the proposed higher-grade events in these retrograde rocks. Neither has the timing of retrogression in the retrogressed metapelites been well constrained. Here, detailed petrographic analysis, mineral composition and in situ U-Pb dating of zircon, monazite and rutile are presented for the amphibolite facies metapelites. These rocks are characterized by assemblages consisting of garnet, orthoamphibole, biotite, quartz, plagioclase, rutile, kyanite and graphite. Although there is pervasive retrogression to orthoamphiboles (anthophyllite to gedrite series), rare relics of orthopyroxene are preserved. The compositions of the first garnet (Grt 1) generation suggests granulite facies peak metamorphic conditions of 860 ± 10 °C and 11 ± 0.4 kbar. Metamorphic zircon grains and overgrowth rims and monazite, included in Grt 1, indicate that peak metamorphic conditions occurred between 2714 ± 7 and 2713 ± 4 Ma. Dating of rutile inclusions in Grt 1 from granulite yield a Concordia age of 2677 ± 6 Ma. This indicates post-granulite facies cooling and shows that later retrograde metamorphism did not reach temperatures high enough to reset rutile inclusions in Grt 1 garnet. Orthoamphibole and second garnet with kyanite inclusions (Grt 2) compositions suggest that retrogression occurred under amphibolite facies conditions of 600 ± 10 °C and 6.0 ± 0.5 kbar. Rutile included in Grt 2 and as discrete grains equilibrated with the retrograde textures record a range of Paleoproterozoic ages (2212 ± 19, 2148 ± 12 and 2012 ± 10 Ma). Thus, the metamorphic history of the amphibolite facies metapelites of the SMZ is hotter than thought and similar to their Archean granulite facies counterparts, except for younger Paleoproterozoic ages, likely indicating a pervasive retrogression to amphibolite facies conditions.

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林波波带南缘闪长岩面元古代变质岩的变质史:锆石、独居石和金红石的原位 U-Pb 测定法
南缘区(SMZ)部分由阿新世花岗岩面玄武岩组成,这些玄武岩沉积于 2733 千兆年前,在 2713 千兆年前变质为与卡普瓦尔克拉通直接接触的林波波带的花岗岩面。在与 Kaapvaal 板块直接接触的推断构造边界的一个片段中,SMZ 还含有闪长岩面玄武岩。据推测,这些玄武岩代表了在闪长岩岩相下全面再水化的前花岗岩。然而,以前的研究没有直接调查过这些逆冲岩的变质条件或拟议的高品位事件发生的时间。对逆冲元古界岩的逆冲时间也没有很好的限制。本文介绍了对闪长岩面元闪长岩进行的详细岩相分析、矿物成分分析以及锆石、独居石和金红石的原位铀-铅年代测定。这些岩石的特征是由石榴石、正长石、黑云母、石英、斜长石、金红石、辉锑矿和石墨组成的集合体。虽然普遍存在向正闪长岩(直闪长岩到闪长岩系列)的倒退,但也保留了罕见的正辉石遗迹。第一代石榴石(Grt 1)的成分表明花岗岩面峰值变质条件为 860 ± 10 °C 和 11 ± 0.4 千巴。包括在Grt 1中的变质锆石颗粒和过度生长边缘以及独居石表明,变质峰值条件发生在2714±7和2713±4Ma之间。从花岗岩中对Grt 1中的金红石包裹体进行定年,得出的康科迪亚年龄为2677 ± 6 Ma。这表明后花岗岩面冷却,并表明后来的逆变质作用没有达到足够高的温度来重置Grt 1石榴石中的金红石包裹体。正闪石和含有闪长岩包裹体的第二种石榴石(Grt 2)成分表明,逆变质是在闪长岩面600 ± 10 °C和6.0 ± 0.5千巴的条件下发生的。包含在 Grt 2 中的金红石以及与逆冲纹理平衡的离散晶粒记录了一系列古新生代年龄(2212 ± 19、2148 ± 12 和 2012 ± 10 Ma)。因此,SMZ的闪长岩面元闪长岩的变质历史比想象的要热,并且与它们的阿奇安花岗岩面对应物相似,只是年龄更年轻,这很可能表明了向闪长岩面条件的普遍逆退。
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来源期刊
Precambrian Research
Precambrian Research 地学-地球科学综合
CiteScore
7.20
自引率
28.90%
发文量
325
审稿时长
12 months
期刊介绍: Precambrian Research publishes studies on all aspects of the early stages of the composition, structure and evolution of the Earth and its planetary neighbours. With a focus on process-oriented and comparative studies, it covers, but is not restricted to, subjects such as: (1) Chemical, biological, biochemical and cosmochemical evolution; the origin of life; the evolution of the oceans and atmosphere; the early fossil record; palaeobiology; (2) Geochronology and isotope and elemental geochemistry; (3) Precambrian mineral deposits; (4) Geophysical aspects of the early Earth and Precambrian terrains; (5) Nature, formation and evolution of the Precambrian lithosphere and mantle including magmatic, depositional, metamorphic and tectonic processes. In addition, the editors particularly welcome integrated process-oriented studies that involve a combination of the above fields and comparative studies that demonstrate the effect of Precambrian evolution on Phanerozoic earth system processes. Regional and localised studies of Precambrian phenomena are considered appropriate only when the detail and quality allow illustration of a wider process, or when significant gaps in basic knowledge of a particular area can be filled.
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