Right-Angle Pattern of Minor Fluvial Networks from the Ionian Terraced Belt, Southern Italy: Passive Structural Control or Foreland Bending?

Salvatore Giano,Dario Gioia,Marcello Schiattarella

doi:10.3390/geosciences8090331

Salvatore Giano, Dario Gioia + Show 1 more

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https://doi.org/10.3390/geosciences8090331

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Abstract

Morphometric analyses of both the topography and drainage network have been carried out in a large sector of the Ionian coastal belt of southern Italy in order to unravel the possible control of Late Quaternary thrust front activity on the evolution of the fluvial net. The study area extends in the southernmost sector of the Bradano Foredeep and is featured by several orders of uplifted marine terraces, ranging in age from Middle Pleistocene to Late Quaternary. The flight of the marine terraces is deeply cut by a trellis-type and regularly spaced minor fluvial network. Morphotectonic investigations based on field survey, photo-aerial interpretation, topographic attributes, morphometric indices, and analysis of longitudinal river profiles suggest a strong control on the drainage network arrangement by a pervasive orthogonal fracture system, produced and preserved into the brittle caprock of the terraces, made by conglomerate. Since a similar pervasive and orthogonal fracture pattern is typically generated by gentle folding of rocks, the development of the Ionian hydrographic networks could be attributed to a general—maybe still active—bending of the foredeep area due to the eastward propagation of blind thrusting of the Apennines orogenic chain.

Highlights

Morphometric analyses of both the topography and drainage network are valuable tools to investigate the influence of tectonic- or eustatic-induced base-level variation on Quaternary evolution of coastal and fluvial landscape [1]
We explore whether morphometric analysis of the drainage network of the study area can furnish new insights about the possible influence of late Quaternary tectonic activity on the planoaltimetric arrangement of fluvial net
Morphotectonic analyses have been firstly focused on the individuation of the drainage network anomalies through a traditional approach based on the integration of field geomorphological survey and photo-aerial interpretation

Summary

Introduction

Morphometric analyses of both the topography and drainage network are valuable tools to investigate the influence of tectonic- or eustatic-induced base-level variation on Quaternary evolution of coastal and fluvial landscape [1]. Numerous studies have documented the usefulness of morphotectonic indexes and drainage network metrics for the investigation of the response of landscape to tectonic forcing and crustal deformation in different geodynamic setting [2,3,4,5,6,7]. Analysis of the drainage network pattern and river profile anomalies is one of the most used approach in decoding the role of crustal deformation in mid- and long-term landscape evolution. Geosciences 2018, 8, 331 anomalies, which can be investigated to unravel the role of active tectonics and lithological/structural setting in drainage network evolution [4,9,10].

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