伊朗北部阿尔伯兹山脉埃迪卡拉纪至侏罗纪地球动力演化:来自加什特变质岩群的地质年代数据

IF 1.8 2区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Swiss Journal of Geosciences Pub Date : 2024-08-28 DOI:10.1186/s00015-024-00465-4
Leila Rezaei, Martin J. Timmerman, Uwe Altenberger, Mohssen Moazzen, Franziska D. H. Wilke, Christina Günter, Masafumi Sudo, Jiří Sláma
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引用次数: 0

摘要

伊朗北部的阿尔伯兹山脉在古特提斯洋和新特提斯洋开启和关闭期间经历了多次构造变质事件。这些事件被稀有且不连续出露的变质岩所记录,如 HP-LT Asalem-Shanderman 复合体和加什特变质复合体(GMC),它们被认为是在古特提斯洋关闭期间发生变质的。加什特变质岩群(GMC)由出露较差的玄武岩和在绿泥石至闪长岩成因条件下变质的闪长岩以及体积较小的花岗岩组成。对选定的 GMC 基底样本采用了不同的测年方法,以确定阿尔伯兹山脉这一部分的地质演变。一块偏花岗岩获得了两个 LA-ICP-MS U-Pb 锆石年龄,分别为 638.4 ± 4.1 Ma 和 590.3 ± 4.8 Ma,可能分别是原岩结晶和后期变形与变质的年龄;一块花岗岩获得了晚埃迪卡拉时期的 551 ± 2.5 Ma U-Pb 锆石结晶年龄。由于没有该单元的年龄数据,因此既不能确定也不能排除从基底到南里海盆地的北部出处。GMC 不可能来自都兰地块基底,因为该地块的地壳构成不同,可能由古新生代和新新生代早期物质组成。锆石年龄与已公布的阿拉伯-努比亚地盾的年龄相似,表明阿尔伯兹地块基底的这一部分在新近新生代可能属于冈瓦纳大陆的北缘,在新特提斯洋开辟过程中与其他伊朗地块(西梅里亚地块)一起发生断裂和漂移。从两个元青石样品中提取的变质独居石的化学Th-U-总铅年龄显示出很大的点年龄范围,其中约80%在200-250Ma之间,因此无法区分GMC中的Eo-Cimmerian事件和Main Cimmerian事件。不过,它们可能表明,GMC 的闪长岩变质峰值发生在三叠纪的某个时期,无论如何都比北面邻近的阿萨勒姆-山德曼变质岩群的石炭纪变质活动要晚得多。闪长岩中的顶峰变质闪长岩、偏闪长岩中的逆行白云母和褶皱界定生物黑云母以及花岗岩中的岩浆白云母产生了更年轻的 175.1 ± 0.5 至 177.0 ± 0.4 Ma 40Ar/39Ar 高原年龄。标称闭合温度不同的矿物的托阿尔纪 40Ar/39Ar 年龄反映了由于延伸引发的隆起,谢姆沙克组以下的 GMC 基底冷却非常迅速。这一托阿尔西元晚期至阿伦西元时期的延伸事件可与巴约西亚中期(约 170 Ma)的区域性中侏罗纪不整合相关联,该不整合是构造运动导致快速隆升和侵蚀的结果。延伸可能始于托阿尔纪的阿尔伯兹山脉西部,向东迁移,在阿尔伯兹东部的阿伦纪达到顶峰,形成了一个深海盆地。伊朗中部微大陆下的新特提斯大洋地壳开始俯冲,可能引发了这一延伸。
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Ediacaran to Jurassic geodynamic evolution of the Alborz Mountains, north Iran: geochronological data from the Gasht Metamorphic Complex
The Alborz Mountains in north Iran underwent several tectono-metamorphic events during opening and closure of the Palaeotethys and Neotethys Oceans. These events are recorded by rare and discontinuously exposed metamorphic rocks, such as the HP-LT Asalem-Shanderman Complex and the Gasht Metamorphic Complex (GMC), that are considered to have been metamorphosed during the closure of the Palaeotethys Ocean. The GMC comprises poorly exposed metasediments and amphibolites metamorphosed under greenschist- to amphibolite-facies conditions, along with smaller volumes of granites. Different dating methods were applied to selected samples of the GMC basement to constrain the geological evolution of this part of the Alborz Mountains. A metagranite yielded two LA-ICP-MS U–Pb zircon ages of 638.4 ± 4.1 Ma and 590.3 ± 4.8 Ma that possibly date protolith crystallisation and later deformation and metamorphism, respectively, and a granite yielded a late Ediacaran 551 ± 2.5 Ma U–Pb zircon crystallisation age. A northern provenance from the basement to the South Caspian Basin can neither be established nor ruled out because no age data are available for this unit. Derivation of the GMC from Turan Block basement is unlikely, as this has a different crustal makeup and is probably composed of Paleoproterozoic and early Neoproterozoic material. The zircon ages are similar to published ages from the Arabian-Nubian Shield, indicating that this part of the Alborz basement may have belonged to the northern margin of Gondwana in the Neoproterozoic before rifting and drifting away along with other Iranian blocks (the Cimmerian terranes) during opening of the Neotethys Ocean. Chemical Th-U-total Pb ages for metamorphic monazites from two metapelite samples yielded a very large range of spot ages, of which c. 80% falls between 200 and 250 Ma, that do not allow to distinguish between Eo-Cimmerian and Main Cimmerian events in the GMC. However, they may indicate that the amphibolite-facies peak metamorphism of the GMC occurred sometime in the Triassic, in any case much later than the Carboniferous metamorphism in the neighbouring Asalem-Shanderman Metamorphic Complex to the north. Peak-metamorphic amphibole from amphibolite, retrograde white mica and foliation-defining biotite from metapelites and magmatic white mica from granite yielded much younger 175.1 ± 0.5 to 177.0 ± 0.4 Ma 40Ar/39Ar plateau ages. The Toarcian 40Ar/39Ar ages for minerals with different nominal closure temperatures reflect very rapid cooling of GMC basement below the Shemshak Group due to extension-triggered uplift. This late Toarcian to Aalenian extension event can be correlated with the regional Mid-Cimmerian unconformity of mid-Bajocian age (c. 170 Ma) that resulted from the tectonic movements causing rapid uplift and erosion. Extension probably started in the western Alborz Mountains in the Toarcian, migrated eastward, and culminated in the Aalenian in the eastern Alborz with the formation of a deep-marine basin. It was probably triggered by the onset of the subduction of Neotethys oceanic crust beneath the Central Iranian Microcontinent.
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来源期刊
Swiss Journal of Geosciences
Swiss Journal of Geosciences 地学-地质学
CiteScore
4.50
自引率
12.90%
发文量
21
审稿时长
>12 weeks
期刊介绍: The Swiss Journal of Geosciences publishes original research and review articles, with a particular focus on the evolution of the Tethys realm and the Alpine/Himalayan orogen. By consolidating the former Eclogae Geologicae Helvetiae and Swiss Bulletin of Mineralogy and Petrology, this international journal covers all disciplines of the solid Earth Sciences, including their practical applications. The journal gives preference to articles that are of wide interest to the international research community, while at the same time recognising the importance of documenting high-quality geoscientific data in a regional context, including the occasional publication of maps.
期刊最新文献
Facies variability and depositional cyclicity in central Northern Switzerland: insights from new Opalinus Clay drill cores Determination of a normal orogenic palaeo-geothermal gradient with clay mineral and organic matter indices: a review Unravelling the tectonic evolution of the Dinarides—Alps—Pannonian Basin transition zone: insights from structural analysis and low-temperature thermochronology from Ivanščica Mt., NW Croatia Special Issue: Evolution of collisional orogens in space and time—the Alpine-Himalayan system in 4 dimensions Ediacaran to Jurassic geodynamic evolution of the Alborz Mountains, north Iran: geochronological data from the Gasht Metamorphic Complex
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