{"title":"作为早白垩世同沉积构造证据的不整合面、海王星岩脉和块体搬运沉积物:来自亚平宁山脉中部的新见解","authors":"A. Cipriani, C. Bottini","doi":"10.3301/IJG.2019.09","DOIUrl":null,"url":null,"abstract":"This work presents the results of a geological mapping project performed on the Narni-Amelia Ridge (Central Apennines, Italy). Fieldwork was aimed at defining the rift and post-rift architecture of the Jurassic to Cretaceous part of the Umbria-Marche-Sabina basin succession, which is characterised by Jurassic rift-related pelagic carbonate platform (PCP)/basin systems. While the effects of the Early Jurassic rifting are well documented in the regional literature, a phase of post-rift extensional tectonics in the late Early Cretaceous is a relatively under-investigated subject. This normal faulting was apparently widespread at a super-regional scale, and the Narni- Amelia Ridge carries direct and indirect evidence for this episode of revived deformation:(i) the occurrence of limestone megabreccias (Mt. Cosce Breccia) resting unconformably, through an erosional surface, on a Jurassic (and Cretaceous) horst-block. Stepped unconformities are associated with spur and groove geometries of the escarpment, suggesting topographic backstepping due to rock- fall processes;(ii) millimetre to decametre-scale neptunian dykes and sills made of Mt. Cosce Breccia and of Maiolica pelagites. These fractures cut the footwall-block of Cretaceous faults, made of Calcare Massiccio Fm (Hettangian), sub-orthogonal to its master- bedding. Dykes are associated with tension gashes filled with chert (silicification of fracture zones). The steep walls of those neptunian dykes filled with Maiolica-type deposits also exhibit a thin chert band;(iii) the onlap of Aptian-Albian Marne a Fucoidi Fm on the Hettangian Calcare Massiccio Fm. 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引用次数: 15
摘要
这项工作展示了在Narni Amelia山脊(意大利亚平宁山脉中部)进行的地质测绘项目的结果。实地工作旨在确定翁布里亚-马尔凯-萨宾纳盆地序列侏罗纪至白垩纪部分的裂谷和裂谷后构造,其特征是侏罗纪裂谷相关的远洋碳酸盐岩平台(PCP)/盆地系统。虽然早侏罗世裂谷作用的影响在区域文献中有很好的记录,但早白垩世晚期的后裂谷伸展构造阶段是一个研究相对较少的主题。这种正断层作用显然在超区域范围内广泛存在,Narni-Amelia山脊为这种复活变形事件提供了直接和间接的证据:(i)石灰岩大角砾岩(Mt.Cosce角砾岩)的出现,通过侵蚀表面不整合地坐落在侏罗纪(和白垩纪)地垒块上。阶梯状不整合面与陡崖的丁坝和凹槽几何形状有关,表明由于落石过程导致的地形后退;(ii)由科斯角砾岩和迈奥利卡群岛建造的毫米至十米级海王星堤坝和岩床。这些裂缝切割了白垩系断层的下盘区块,该断层由Calcare Massiccio Fm(Hettaganian)组成,与主层理亚正交。堤坝与充满燧石的张力裂缝有关(断裂带硅化)。那些充满Maiolica型矿床的海王星脉的陡峭壁也显示出一条薄的燧石带;(iii)Hettaganian Calcare Massiccio Fm上的Aptian Albian Marne a Fucoidi Fm的上盖层。这是整个Umbria-Marche Sabina域中的一个单一层;(iv)在Maiolica Fm的上部和Marne a Fucoidi Fm的下部存在质量输送矿床(滑塌和泥石流)。这些地层异常被统称为正断层的产物,正断层导致PCP的原始侏罗纪边缘后退,使海底古地形恢复活力。从科斯角砾岩和海王星脉取样的Maiolica型相的超微化石组合表明,这一同沉积伸展阶段的中期Barremian年龄。
Unconformities, neptunian dykes and mass-transport deposits as an evidence for Early Cretaceous syn-sedimentary tectonics: new insights from the Central Apennines
This work presents the results of a geological mapping project performed on the Narni-Amelia Ridge (Central Apennines, Italy). Fieldwork was aimed at defining the rift and post-rift architecture of the Jurassic to Cretaceous part of the Umbria-Marche-Sabina basin succession, which is characterised by Jurassic rift-related pelagic carbonate platform (PCP)/basin systems. While the effects of the Early Jurassic rifting are well documented in the regional literature, a phase of post-rift extensional tectonics in the late Early Cretaceous is a relatively under-investigated subject. This normal faulting was apparently widespread at a super-regional scale, and the Narni- Amelia Ridge carries direct and indirect evidence for this episode of revived deformation:(i) the occurrence of limestone megabreccias (Mt. Cosce Breccia) resting unconformably, through an erosional surface, on a Jurassic (and Cretaceous) horst-block. Stepped unconformities are associated with spur and groove geometries of the escarpment, suggesting topographic backstepping due to rock- fall processes;(ii) millimetre to decametre-scale neptunian dykes and sills made of Mt. Cosce Breccia and of Maiolica pelagites. These fractures cut the footwall-block of Cretaceous faults, made of Calcare Massiccio Fm (Hettangian), sub-orthogonal to its master- bedding. Dykes are associated with tension gashes filled with chert (silicification of fracture zones). The steep walls of those neptunian dykes filled with Maiolica-type deposits also exhibit a thin chert band;(iii) the onlap of Aptian-Albian Marne a Fucoidi Fm on the Hettangian Calcare Massiccio Fm. This is an unicum in the whole Umbria- Marche-Sabina Domain;(iv) the presence of mass-transport deposits (slumps and debris flows) in the uppermost part of the Maiolica Fm and lower part of the Marne a Fucoidi Fm.These stratigraphic anomalies are collectively interpreted as the products of normal faulting, which caused the retreat of the original Jurassic margins of the PCPs, rejuvenating the submarine palaeotopography. A middle Barremian age for this phase of syn- sedimentary extension is indicated by the nannofossil assemblage of Maiolica-type facies sampled from the Mt. Cosce Breccia and from the neptunian dykes.
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.