Strain partitioning and relief segmentation in arcuate foldand-thrust beltsa case study from the western Betics

  1. A. Jiménez Bonilla 1
  2. I. Expósito 1
  3. J. C. Balanyá 1
  4. M. Díaz Azpiroz 1
  1. 1 Universidad Pablo de Olavide
    info

    Universidad Pablo de Olavide

    Sevilla, España

    ROR https://ror.org/02z749649

Zeitschrift:
Journal of iberian geology: an international publication of earth sciences

ISSN: 1886-7995 1698-6180

Datum der Publikation: 2017

Ausgabe: 43

Nummer: 3

Seiten: 497-518

Art: Artikel

DOI: 10.1007/S41513-017-0028-0 DIALNET GOOGLE SCHOLAR

Andere Publikationen in: Journal of iberian geology: an international publication of earth sciences

Ziele für nachhaltige Entwicklung

Zusammenfassung

Purpose Within arcuate orogenic belts, strain is commonly partitioned between arc-parallel stretching and arc-perpendicular shortening. Arc-parallel stretching can be accommodated by arc-oblique strike-slip faults and arcperpendicular normal faults, whose localization in fault systems may provoke significant along-strike structural relief drops. Methods In this work, we have studied the Ubrique area, located in a frontal segment of the external western Betics (northern branch of the Gibraltar Arc), where one of the most significant relief discontinuities along the orogenic grain is defined. Results We have found that this discontinuity is determined by two main types of structures: (1) arc-parallel, kilometric-scale folds and reverse faults that control the conformable relief of the fold-and-thrust belt; (2) the tectonic lineation related to the SW segmentation of this relief, which is composed of the Colmenar fault and the Ubrique Normal Fault Zone (UNFZ). Conclusions This tectonic lineation seems to have localized arc-parallel extension. Qualitative and quantitative geomorphological analyses together with the age of the deformed rocks indicate that these structures have been active from the Tortonian to Holocene. Our results suggest that post-Serravallian outward radial thrusting and arcparallel stretching accommodate a strain partitioning typical of progressive arcs, thus suggesting that the Gibraltar Arc is still protruding.