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Vettore-Bove fault zone

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Book Chapter

Detailed mapping and paleostress analysis of active faults in the northern VettoreBove fault zone, Sibillini Mountains, Italy Available to Purchase

Author(s)
Kevin G. Stewart, Rachel Boulter
Book: From the Guajira Desert to the Apennines, and from Mediterranean Microplates to the Mexican Killer Asteroid: Honoring the Career of Walter Alvarez
Series: GSA Special Papers
Publisher: Geological Society of America
Published: 21 June 2022
DOI: 10.1130/2022.2557(06)
EISBN: 9780813795577
... activated various segments of a ~60-km-long fault zone, which includes the ~30-km-long VettoreBove fault system (VBFS). The largest was the 30 October M w 6.5 earthquake, which was preceded by a M w 5.9 earthquake on 26 October ( Fig. 1 ). EMERGEO Working Group (2017) and Villani et al. (2018...
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Abstract
View PDF for content titled, Detailed mapping and paleostress analysis of active <span class="search-highlight">faults</span> in the northern <span class="search-highlight">Vettore</span>–<span class="search-highlight">Bove</span> <span class="search-highlight">fault</span> <span class="search-highlight">zone</span>, Sibillini Mountains, Italy
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ABSTRACT The Sibillini Mountains, which make up the southern part of the Umbria-Marche Apennines, were struck by a series of earthquakes in 2016, including five with magnitudes greater than 5. The largest event, M w 6.5, occurred on 30 October 2016. A M w 5.9 earthquake on 26 October ruptured several faults in the northern third of the Vettore–Bove fault system, and the M w 6.5 event produced surface ruptures along the entire 30-km length. Ground surveys conducted shortly after these earthquakes showed that many, but not all, of the surface ruptures corresponded to previously mapped faults. Also, some faults that had been mapped as Quaternary did not produce surface ruptures during the earthquakes. In this study, we present the results of detailed field mapping that was conducted prior to the 2016 earthquakes and provide evidence that all of the surface ruptures in the northern part of the Vettore–Bove fault system occurred along preexisting faults. Paleostress analysis shows that the reactivated faults had been active prior to 2016 in stress fields with similar orientations to the modern-day stress field. In addition, we show that one fault segment, which is the southern continuation of a major fault that slipped during the 2016 earthquakes, was not reactivated because it was unfavorably oriented.

Image
(a) Location map of the area in (b). (b) Map of the relief and simplified structural map of the Central Apennines showing schematically the trace of the Quaternary and/or active normal fault systems affecting the axial zone of the chain and the main thrusts (after Boncio et al. 2004, Pizzi and Galadini 2009). Mt. Vettore–Mt. Bove (VBF) and Laga (LF) faults (marked blue lines) were involved in the 2016–2017 seismic sequence.

(a) Location map of the area in (b). (b) Map of the relief and simplified s... Available to Purchase

Published: 01 November 2018
, Pizzi and Galadini 2009 ). Mt. Vettore–Mt. Bove (VBF) and Laga (LF) faults (marked blue lines) were involved in the 2016–2017 seismic sequence.
Journal Article

Stratigraphic and structural features of the Sibillini Mountains (Umbria-Marche Apennines, Italy) Available to Purchase

Pietro Pierantoni, Giovanni Deiana, Sandro Galdenzi
Published: 01 October 2013
Italian Journal of Geosciences (2013) 132 (3): 497–520.
DOI: https://doi.org/10.3301/IJG.2013.08
... out significantly in the Fiastrone (near Bolognola) and Ambro valleys, in the high valley of the Ussita river and in the Mt. Vettore-Mt. Macchialta area. These successions generally onlap the Jurassic fault-scarps, as shown along the Fiastrone valley (Bolognola), at Mt. Valvasseto and Mt. Bove Nord...
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View PDF for article title, Stratigraphic and structural features of the Sibillini Mountains (Umbria-Marche Apennines, Italy)
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Journal Article

Surface Faulting Caused by the 2016 Central Italy Seismic Sequence: Field Mapping and LiDAR/UAV Imaging Available to Purchase

Stefano Gori, Emanuela Falcucci, Fabrizio Galadini, Paolo Zimmaro, M. EERI, Alberto Pizzi, Robert E. Kayen, M. EERI, Bret N. Lingwall, M. EERI, Marco Moro, Michele Saroli, Giandomenico Fubelli, Alessandra Di Domenica, Jonathan P. Stewart, M. EERI
Published: 01 November 2018
Earthquake Spectra (2018) 34 (4): 1585–1610.
DOI: https://doi.org/10.1193/111417EQS236MR
... , Pizzi and Galadini 2009 ). Mt. Vettore–Mt. Bove (VBF) and Laga (LF) faults (marked blue lines) were involved in the 2016–2017 seismic sequence. ...
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View PDF for article title, Surface <span class="search-highlight">Faulting</span> Caused by the 2016 Central Italy Seismic Sequence: Field Mapping and LiDAR&#x2F;UAV Imaging
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Journal Article

Active Faulting in Source Region of 2016–2017 Central Italy Event Sequence Available to Purchase

Fabrizio Galadini, Emanuela Falcucci, Stefano Gori, Paolo Zimmaro, M. EERI, Daniele Cheloni, Jonathan P. Stewart, M. EERI
Published: 01 November 2018
Earthquake Spectra (2018) 34 (4): 1557–1583.
DOI: https://doi.org/10.1193/101317EQS204M
... fault models (using GPS, interferometric aperture radar, and ground motion data), and surface rupture patterns, all point to the earthquakes having been generated on the Mt. Vettore–Mt. Bove fault system (all three main shocks) and on the Amatrice fault, in the northern sector of the Laga Mountains...
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View PDF for article title, Active <span class="search-highlight">Faulting</span> in Source Region of 2016–2017 Central Italy Event Sequence
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Image
(a) Normal faults (from Pierantoni et al. 2013) and Quaternary/active normal faults (from Calamita et al. 1992, Pizzi 1992) mapped in the southernmost sector of the Mt. Vettore–Mt. Bove fault system (Mt. Vettoretto area, see Figure 3). MST: Sibillini Mts thrust. (b) Sketch of the observed coseismic ruptures, which reflected the pre-existing en-échelon pattern of bedrock faults already mapped in the literature. Several NNW-SSE-trending en-échelon ruptures developed at the relay zone between the NW-SE-trending bedrock faults, suggesting incipient fault linkage. (c) Coseismic ruptures occurred during both the 24 August and 30 October 2016 events (white arrows). Complex surface rupture patterns and more distributed deformations characterized this portion of the fault, where no clear bedrock scarps outcrop and where active faults can be recognized due to the presence of morphologic/geologic evidence, such as elongate depressions, saddles, and accumulation of rock debris at the base of periodically exposed bedrock-free faces.

(a) Normal faults (from Pierantoni et al. 2013 ) and Quaternary/active nor... Available to Purchase

Published: 01 November 2018
Figure 5. (a) Normal faults (from Pierantoni et al. 2013 ) and Quaternary/active normal faults (from Calamita et al. 1992 , Pizzi 1992 ) mapped in the southernmost sector of the Mt. Vettore–Mt. Bove fault system (Mt. Vettoretto area, see Figure 3 ). MST: Sibillini Mts thrust. (b) Sketch
Journal Article

Reconnaissance of 2016 Central Italy Earthquake Sequence Available to Purchase

Jonathan P. Stewart, M. EERI, Paolo Zimmaro, M. EERI, Giuseppe Lanzo, Silvia Mazzoni, M. EERI, Ernesto Ausilio, Stefano Aversa, Francesca Bozzoni, Roberto Cairo, Maria Chiara Capatti, Massimina Castiglia, Filiberto Chiabrando, Anna Chiaradonna, Anna d'Onofrio, Shideh Dashti, Raffaele De Risi, Filomena de Silva, Fernando della Pasqua, Francesca Dezi, Alessandra Di Domenica, Luigi Di Sarno, Maria Giovanna Durante, M. EERI, Emanuela Falcucci, Sebastiano Foti, Kevin W. Franke, Fabrizio Galadini, Silvia Giallini, Stefano Gori, Robert E. Kayen, Tadahiro Kishida, Andrea Lingua, Bret Lingwall, Michele Mucciacciaro, Alessandro Pagliaroli, Federico Passeri, Panagiotis Pelekis, Alberto Pizzi, Brandon Reimschiissel, Antonio Santo, Filippo Santucci de Magistris, Giuseppe Scasserra, Anastasios Sextos, Stefania Sica, Francesco Silvestri, Armando L. Simonelli, Antonia Spanò, Paolo Tommasi, Giuseppe Tropeano
Published: 01 November 2018
Earthquake Spectra (2018) 34 (4): 1547–1555.
DOI: https://doi.org/10.1193/080317EQS151M
... of the Apennines affected by the Central Italy events are undergoing extension accommodated by numerous normal faults, many of which are well expressed at the surface. Galadini et al. (2018) show that the main shock events occurred on the Mt. Vettore–Mt. Bove fault system and the Amatrice fault in the Laga...
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Journal Article

The 2016 Central Italy Seismic Sequence: A First Look at the Mainshocks, Aftershocks, and Source Models Available to Purchase

L. Chiaraluce, R. Di Stefano, E. Tinti, L. Scognamiglio, M. Michele, E. Casarotti, M. Cattaneo, P. De Gori, C. Chiarabba, G. Monachesi, A. Lombardi, L. Valoroso, D. Latorre, S. Marzorati
Published: 29 March 2017
Seismological Research Letters (2017) 88 (3): 757–771.
DOI: https://doi.org/10.1785/0220160221
.... In addition, on top of this structure, we observe that the shallower seismicity is almost confined within the northern sector, north of Mt. Vettore. This area is along strike confined by the presence of the OAS thrust front having the Mt. Vettore–Mt. Bove normal fault located on its hanging wall. Even...
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View PDF for article title, The 2016 Central Italy Seismic Sequence: A First Look at the Mainshocks, Aftershocks, and Source Models
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(a) Redrawn from Wang et al. (2019) with overlapped directivity index (Dindex, yellow arrows). The inset in the top right corner shows the comparison between the same seismic events of Wang et al. (2019) and this study. (b) Map of the epicentral area showing main active normal faults (redrawn from Improta et al., 2019). Yellow lines represent west‐dipping fault, blue lines represent east‐dipping faults, yellow bold lines represent Laga fault system, red solid lines represent coseismic surface rupture along the Vettore‐Bove fault system, the black barbed lines represent Miocene Pliocene thrust, red stars represent the three mainshocks, and yellow stars represent M 5+ events. Yellow arrows correspond to the directivity index. (c) VP/VS layers at 3 (left) and 6 (right) km depth (redrawn from Chiarabba et al., 2018). The aftershocks and mainshocks (stars) occurring at ±1.5 km from each layer are shown. The gray lines are the main thrust of the system and St denotes Sibillini thrust modified from Bigi et al. (2011). The dashed lines are the tip of the blind ramps at depth. Magenta line is a well‐resolved area. SH, Laga structural high. The seismic events analyzed in this study are superimposed on the four panels. The yellow arrows correspond to the main directions (Dindex) of the rupture directivity of the seismic events with Mw&gt;5. The yellow arrows point toward the zone with high VP/VS (low VS). The color version of this figure is available only in the electronic edition.

(a) Redrawn from Wang et al. (2019) with overlapped directivity index (... Available to Purchase

Published: 10 April 2023
active normal faults (redrawn from Improta et al. , 2019 ). Yellow lines represent west‐dipping fault, blue lines represent east‐dipping faults, yellow bold lines represent Laga fault system, red solid lines represent coseismic surface rupture along the VettoreBove fault system, the black barbed lines
Journal Article

The Campotosto linkage fault zone between the 2009 and 2016 seismic sequences of central Italy: Implications for seismic hazard analysis Open Access

Emanuele Tondi, Danica Jablonská, Tiziano Volatili, Maddalena Michele, Stefano Mazzoli, Pietro Paolo Pierantoni
Journal: GSA Bulletin
Published: 14 December 2020
GSA Bulletin (2021) 133 (7-8): 1679–1694.
DOI: https://doi.org/10.1130/B35788.1
... ). After the 2016-Amatrice-Visso-Norcia mainshocks, surface faulting was observed along several faults that had been previously mapped as active and capable, belonging to the Monte Vettore-Monte Bove fault system ( Calamita and Pizzi, 1994 ; Cello et al., 1997 ; Pizzi et al., 2002 ; Pierantoni et al...
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View PDF for article title, The Campotosto linkage <span class="search-highlight">fault</span> <span class="search-highlight">zone</span> between the 2009 and 2016 seismic sequences of central Italy: Implications for seismic hazard analysis
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Journal Article

3-D model reveals thermal decomposition as a potential driver of seismicity in the Apennines, Italy Open Access

Thanushika Gunatilake, Stephen A. Miller
Journal: GSA Bulletin
Published: 18 July 2024
GSA Bulletin (2025) 137 (1-2): 341–350.
DOI: https://doi.org/10.1130/B37234.1
... for events M w > 4.7 indicate predominantly normal faulting, consistent with the overall tectonics of the Apennines. Both earthquake sequences activated a considerable number of fault systems in the Central Apennines. These include, from north to south, Colfiorito, Norcia, Mt. Vettore–Mt. Bove faults...
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View PDF for article title, 3-D model reveals thermal decomposition as a potential driver of seismicity in the Apennines, Italy
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Journal Article

Fault Rheology Control on Rupture Propagation and Aftershocks Distribution during the 2016–2017 Central Italy Earthquakes Available to Purchase

Pasquale De Gori, Maddalena Michele, Lauro Chiaraluce, Claudio Chiarabba
Published: 09 August 2023
Seismological Research Letters (2023) 94 (6): 2642–2654.
DOI: https://doi.org/10.1785/0220220284
... that sections 1–4, perpendicular to the M w  6.5 fault, rotate southward, whereas sections 5 and 6 are perpendicular to the M w  6.1 event. The red, bold, and light lines are the Sibillini thrust (Sib‐t) and the VettoreBove normal fault (Vf) at the surface, respectively. The black arrows point...
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View PDF for article title, <span class="search-highlight">Fault</span> Rheology Control on Rupture Propagation and Aftershocks Distribution during the 2016–2017 Central Italy Earthquakes
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Are Synthetic Accelerograms Suitable for Local Seismic Response Analyses at Near‐Field Sites? Available to Purchase

Francesca Mancini, Sebastiano D’Amico, Giovanna Vessia
Published: 28 December 2021
Bulletin of the Seismological Society of America (2022) 112 (2): 992–1007.
DOI: https://doi.org/10.1785/0120210074
... ). This pre‐existing structural barrier is interposed between two different faults involved in the 2016–2017 sequence, namely the Mt. Vettore–Mt. Bove fault system (MVBF) and the Laga Mts fault system, respectively, located at the hanging wall and the footwall of the MST. This system juxtaposes the Triassic...
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View PDF for article title, Are Synthetic Accelerograms Suitable for Local Seismic Response Analyses at Near‐Field Sites?
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Interseismic creep of carbonate-hosted seismogenic normal faults: Insights from central Italy Open Access

Leonardo Del Sole, Stefano Mazzoli, Michele M.C. Carafa, Giovanni Toffol, Giorgio Pennacchioni, Gabriele Giuli, Chiara Invernizzi, Emanuele Tondi
Journal: GSA Bulletin
Published: 21 August 2023
GSA Bulletin (2024) 136 (3-4): 1605–1627.
DOI: https://doi.org/10.1130/B36954.1
... and electron-backscatter diffraction analyses revealed that whereas the localized principal slip zone records seismic slip (as ultracataclastic material, calcite crystallographic preferred orientation (CPO), and truncated clasts), the bulk fault rock below behaves differently. Cataclasites in massive...
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Machine‐Learning‐Based High‐Resolution Earthquake Catalog Reveals How Complex Fault Structures Were Activated during the 2016–2017 Central Italy Sequence Open Access

Yen Joe Tan, Felix Waldhauser, William L. Ellsworth, Miao Zhang, Weiqiang Zhu, Maddalena Michele, Lauro Chiaraluce, Gregory C. Beroza, Margarita Segou
Published: 04 May 2021
The Seismic Record (2021) 1 (1): 11–19.
DOI: https://doi.org/10.1785/0320210001
... occurs on critically stressed faults. Delineated major fault zones are relatively thick compared to estimated earthquake location uncertainties, and a large number of kilometer‐long faults and diffuse seismicity were activated during the sequence. These properties might be related to fault age, roughness...
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View PDF for article title, Machine‐Learning‐Based High‐Resolution Earthquake Catalog Reveals How Complex <span class="search-highlight">Fault</span> Structures Were Activated during the 2016–2017 Central Italy Sequence
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The instrumental seismicity of the Abruzzo Region in Central Italy (1981–2003): seismotectonic implications Available to Purchase

Paolo Boncio, Debora Paola Tinari, Giusy Lavecchia, Francesco Visini, Giuliano Milana
Published: 01 June 2009
Italian Journal of Geosciences (2009) 128 (2): 367–380.
DOI: https://doi.org/10.3301/IJG.2009.128.2.367
... with epicentral Intensity (MCS scale) larger than V–VI (from W orking G roup CPTI, 2004 ), earthquake focal mechanisms available in the literature and traces of active normal and normal-oblique faults. Active faults (according to B oncio et alii, 2004a , with references): 1a) M. Bove, 1b) M. Vettore, 2) M...
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View PDF for article title, The instrumental seismicity of the Abruzzo Region in Central Italy (1981–2003): seismotectonic implications
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The Central Italy Seismic Sequence between August and December 2016: Analysis of Strong‐Motion Observations Available to Purchase

Lucia Luzi, Francesca Pacor, Rodolfo Puglia, Giovanni Lanzano, Chiara Felicetta, Maria D’Amico, Alberto Michelini, Licia Faenza, Valentino Lauciani, Iunio Iervolino, George Baltzopoulos, Eugenio Chioccarelli
Published: 09 August 2017
Seismological Research Letters (2017) 88 (5): 1219–1231.
DOI: https://doi.org/10.1785/0220170037
... mainshocks of the central Italy sequence occurred along a fault alignment that extends from Mt. Vettore to Mt. Bove to Mt. Gorzano (VBF and LF, respectively, in Fig.  2 ). It lies to the east of the alignment that develops from Gubbio to Colfiorito, and extends as far as the area struck by the 2009 L’Aquila...
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View PDF for article title, The Central Italy Seismic Sequence between August and December 2016: Analysis of Strong‐Motion Observations
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Layered Seismogenic Source Model and Probabilistic Seismic-Hazard Analyses in Central Italy Available to Purchase

Bruno Pace, Laura Peruzza, Giusy Lavecchia, Paolo Boncio
Published: 01 February 2006
Bulletin of the Seismological Society of America (2006) 96 (1): 107–132.
DOI: https://doi.org/10.1785/0120040231
... et al. , 2003 ; P96, Pantosti et al. , 1996 ; S03, Salvi et al. , 2003 ; V01, Valensise and Pantosti, 2001 . 1 Bove-Vettore 35.0 15.0 19.6 686 0.5 G03a 2 Gorzano 28.4 15.0 19.6 557 0.3 G03a 3 Gran Sasso 28.7 15.0 19.6 563 0.8 G03b; G95 4 Gubbio 23.64 (20.9...
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Phased Reconnaissance Approach to Documenting Landslides following the 2016 Central Italy Earthquakes Available to Purchase

Kevin W. Franke, M. EERI, Bret N. Lingwall, M. EERI, Paolo Zimmaro, M. EERI, Robert E. Kayen, M. EERI, Paolo Tommasi, Filiberto Chiabrando, Antonio Santo
Published: 01 November 2018
Earthquake Spectra (2018) 34 (4): 1693–1719.
DOI: https://doi.org/10.1193/082117EQS165M
.... Vettore Fault Event Stations: V S 30 (m/s) TERO 660 MSC 540 PCB 366 SPM 1000 CSC 698 NOR 687 August PHGA (g) 0.09 0.05 0.13 0.07 0.06 0.19 M6.1 PHGV (cm/s) 4.29 1.43 5.49 3.02 2.01 21.09 NS I a (m/s) 0.08 0.02 0.21 0.05 0.03 0.34 CAV (cm/s...
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Geological map, balanced and restored cross-sections, and 3D geological model of the Monte Fema area, Umbria-Marche Apennines (Italy) Open Access

Matteo Basilici, Matteo Pedini, Alessandro Spinaci, Leonardo Del Sole, Danica Jablonskà, Franco Capotorti, Stefano Mazzoli, Pietro Paolo Pierantoni
Published: 01 October 2023
Italian Journal of Geosciences (2023) 142 (3): 339–358.
DOI: https://doi.org/10.3301/IJG.2023.22
... established since Late Miocene and is responsible for the presently active normal faulting affecting the axial zone of the chain (e.g.,  Cello et al., 1997 ; Barchi et al., 2000 ; Tondi & Cello, 2003 ; Pondrelli et al., 2006 ; Mariucci & Montone, 2020 ). Here, instrumental and historical...
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