亚平宁山脉南部(意大利南部)富Bifurto石英砂岩的U-Pb碎屑锆石年龄和成分特征:与Numidian Flysch砂岩的比较以推断源区

IF 1 4区 地球科学 Q4 GEOSCIENCES, MULTIDISCIPLINARY
A. Fornelli, S. Gallicchio, F. Micheletti
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引用次数: 8

摘要

研究了亚平宁山脉南部Bifurto组的两个富含石英的砂岩样品的岩石学、地球化学和地质年代(U-Pb碎屑锆石年龄)特征,并与意大利南部努米底阶复理石五个地层剖面的砂岩进行了比较。这种比较的目的是评估碎屑的均匀性和物源,因为这两个地层的富含石英的砂岩是同时代的,具有Burdigalian p.p.-早期Langhian时代。Bifurto组的沉积域位于下沉的Campania Lucania碳酸盐岩平台上,而Numidian Flysch的沉积域则位于Campania Lucania平台以东的Lagonegro Molise盆地内。Bifurto砂岩具有亚长石砂岩-石英砂岩成分,Fe2O3含量高(Fe2O3在2.85 wt%-4.83 wt%范围内),但整个成分在努米迪亚Flysch砂岩的相同成分范围内变化。Bifurto砂岩中的U-Pb碎屑锆石年龄范围为2551±40 Ma至425±9 Ma,其中93%的年龄数据包含在Numidian Flysch砂岩碎屑锆石年龄的相同时间段内(3047±13至516±19 Ma)。这些年龄表明物源区由古代造山带组成,其中存在前寒武纪和志留纪岩石。古生代-中生代的缺失排除了华力西期或阿尔卑斯山岩石的物源。在此基础上,非洲克拉通代表了比弗托砂岩以及亚平宁山脉南部出露的努米底亚Flysch砂岩的专属来源区。从西班牙到摩洛哥、阿尔及利亚和西西里岛,沿着贝蒂奇和马格里布链露头的努米迪亚砂岩也提出了类似的推断。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
U-Pb detrital zircon ages and compositional features of Bifurto quartz-rich sandstones from Southern Apennines (Southern Italy): comparison with Numidian Flysch sandstones to infer source area
Two samples of quartz-rich sandstones belonging to Bifurto Formation in Southern Apennines, were studied for their petrographical, geochemical and geochronological (U-Pb detrital zircon ages) features and compared with those of sandstones from five stratigraphic sections of the Numidian Flysch in SouthernItaly. The purpose of this comparison is to assess the homogeneity and provenance of detritus because quartz-rich sandstones of both formations are coeval having Burdigalian p.p. - Early Langhian age.The depositional domain of the Bifurto formation was located on the sinking Campania-Lucania carbonate platform whereas that of Numidian Flysch was within the Lagonegro-Molise Basin east of the Campania-Lucania Platform. The Bifurto sandstones have sub-arkose - quartzarenitic composition with high Fe2O3 contents (Fe2O3 in the range 2.85 wt% - 4.83 wt%), however, the whole composition varies in the same compositional range of the Numidian Flysch sandstones.The U-Pb detrital zircon ages in Bifurto sandstones range from 2551±40 Ma to 425±9 Ma and 93% of these age data is comprised in the same time lapse of detrital zircon ages of Numidian Flysch sandstones (3047±13 to 516±19 Ma). These ages suggest a provenance area consisting of ancient orogens in which Precambrian and Silurian rocks are present. The absence of Paleozoic - Mesozoic ages excludes provenance from Variscan or Alpine rocks. On this basis, the African Craton represents the exclusive source area of Bifurto sandstones as well as of Numidian Flysch sandstones outcropping in Southern Apennines. Similar deductions have been proposed for Numidian sandstones outcropping along the Betic and Maghrebian chains from Spain to Morocco, Algeria and Sicily.
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来源期刊
Italian Journal of Geosciences
Italian Journal of Geosciences GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
2.90
自引率
11.10%
发文量
25
审稿时长
>12 weeks
期刊介绍: The Italian Journal of Geosciences (born from the merging of the Bollettino della Società Geologica Italiana and the Bollettino del Servizio Geologico d''Italia) provides an international outlet for the publication of high-quality original research contributions in the broad field of the geosciences. It publishes research papers, special short papers, review papers, discussion-and-replies for their rapid distribution to the international geosciences community. The journal is firstly intended to call attention to the Italian territory and the adjacent areas for the exceptional role they play in the understanding of geological processes, in the development of modern geology and the Earth sciences in general. The main focus of the journal is on the geology of Italy and the surrounding sedimentary basins and landmasses, and on their relationships with the Mediterranean geology and geodynamics. Nevertheless, manuscripts on process-oriented and regional studies concerning any other area of the World are also considered for publication. Papers on structural geology, stratigraphy, sedimentology, basin analysis, paleontology, ecosystems, paleoceanography, paleoclimatology, planetary sciences, geomorphology, volcanology, mineralogy, geochemistry, petrology, geophysics, geodynamics, hydrogeology, geohazards, marine and engineering geology, modelling of geological process, history of geology, the conservation of the geological heritage, and all related applied sciences are welcome.
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