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http://dx.doi.org/10.15165/studgeocam-791
Title: | STRUCTURAL ANALYSIS OF THE MESOZOIC LAGONEGRO UNITS IN SW LUCANIA (SOUTHERN ITALIAN APENNINES) |
Authors: | MAZZOLI, S. |
Keywords: | Structural analysis - Superposed deformations - Lagonegro area - southern Apennines Analisi strutturale - Deformazioni sovrapposte - Area di Lagonegro - Appennino meridionale |
Issue Date: | 1992 |
Publisher: | Università di Camerino |
Citation: | Studi geologici camerti, 12, 1992, pp.117-146 + carta + errata corr. |
Abstract: | This study discusses the structural analysis of the tectonic units outcropping in the Lagonegro Zone of SW-Lucania (southern Italy). The Mesozoic sediments of the Lagonegro and adjacent nappes have undergone a polyphase deformation history, which is superposed on an already complicated Middle Triassic to Lower Cretaceous palaeotectonic evolution. Field mapping and structural analysis revealed two main contractional deformation sequences in the Lagonegro nappes. During the early stages of the D1 deformation sequence, the Mesozoic sediments of the Lagonegro basin were detached from their substratum. Continued NEdirected thrusting (in present-day co-ordinates) led to nappe formation and to the regional juxtaposition of Lagonegro Unit II over Unit I. Main folding within the two nappes was essentially coeva! with nappe emplacement. Further thrusting occurred within Lagonegro Unit I, involving faulting of already folded rocks with only limited displacements compared to the main nappe transport. The fold geometry appears to have been often modified by movement over the thrust surfaces: folds tighten and axial planes make progressively lower angles with the thrust towards the thrust tip-line. A discontinuously developed slaty cleavage (S1) formed in the less competent lithologies during this deformation sequence. Refolding of the whole tectonic pile occurred as a consequence of (present-day) N-S to NNE-SSW shortening (D2). In the less competent lithologies, a crenulation cleavage (S2), usually in the form of conjugate kink bands, is associated with this deformation. Refolding produced different types of interference structures at various scales. The most commonly observed are transitional forms between Type 1 and Type 2 interference patterns. Although these complex structures never represent simple type end-members, at a first approximation a pattern can be recognized consisting of (dominant Type 1) dome-like structures developed on early broad anticlines and of (dominant Type 2) tight synclinal structures with folded axial surfaces developed on early "pinched" synclines. |
URI: | http://193.204.8.201:8080/jspui/handle/1336/136 |
ISSN: | 0392-0631 |
Appears in Volumess: | Volume 12 (1992) |
Files in This Item:
File | Description | Size | Format | |
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Vol. 12 Capitolo 9.pdf | 12, 1992, pp.117-146 | 4,78 MB | Adobe PDF | View/Open |
Geological map with profiles of the Monte Sirino area.pdf | 3,56 MB | Adobe PDF | View/Open |
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