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Sand volcanoes induced by the April 6th 2009 Mw 6.3 L’Aquila earthquake: a case study from the Fossa area (2012)

De Martini, P. M. ; Cinti, F. R. ; Cucci, L. ; [et al.]

Societa' Geologica Italiana

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Publication Date: 2021-01-25

Description: This paper presents the study of some liquefaction features occurred near the Fossa village due to the April 6, 2009, Mw 6.3 L’Aquila earthquake (Central Italy). Our investigation is based on trenching and coring campaigns as well as sedimentological analyses and datings. The geometrical elements of the sand volcanoes on the surface, of the dike used to rise up and of the probable sandy source at depth are presented. A sandy pockets level found at less than 1 m of depth, interpreted as possible evidence for a paleo-liquefaction event is discussed. Sedimentologic and morphoscopic analyses both provided the necessary elements and parameters to link the ca. 4 m deep sandy layers to the 2009 sand blows on the ground surface as well as to the paleo-liquefaction layer and defined the main characteristics of the deposits sealing the sands that experience liquefaction at depth. Finally a tentative correlation between the paleo-liquefaction layer and the 1461 AD or the 1703 AD local earthquakes is suggested based on the available age constraints.

Description: Published

Description: 410-422

Description: 3.2. Tettonica attiva

Description: JCR Journal

Description: open

Keywords: liquefaction ; sand volcanoes ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Rilievi geologici di terreno effettuati nell’area epicentrale della sequenza sismica dell’Aquilano del 6 aprile 2009 (2010)

INGV - Emergeo working group ; Basili, R. ; Burrato, P. ; [et al.]

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Publication Date: 2021-06-03

Description: Istituto Nazionale di Geofisica e Vulcanologia; CNR-IGAG, Università degli Studi di Roma TRE, DiMSAT- Università degli Studi di Cassino;

Description: Published

Description: 3.2. Tettonica attiva

Description: open

Keywords: Rilievi geologici ; sequenza sismica ; dell’Aquilano ; 6 aprile 2009 ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: report

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Rilievi geologici nell’area epicentrale della sequenza sismica dell’Aquilano del 6 aprile 2009 (2010)

EMERGEO Working Group, . ; Basili, R. ; Burrato, P. ; [et al.]

INGV

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Publication Date: 2021-06-03

Description: Il 6 Aprile 2009 un terremoto di Ml=5.8 (Mw=6.2) ha colpito L’Aquila e la media valle dell’Aterno in Abruzzo. In questo lavoro presentiamo in maniera sintetica i rilievi geologici effettuati in campagna dal gruppo di lavoro EmerGeo a seguito della sequenza sismica aquilana. Le attività di rilevamento condotte sono consistite principalmente nella verifica, definizione e caratterizzazione delle deformazioni cosismiche superficiali osservate lungo le strutture tettoniche note in letteratura; sono stati inoltre rilevati e riportati altri effetti cosismici locali (fratture su asfalto, frane e scivolamenti) non direttamente collegati alla presenza di strutture tettoniche. In totale sono stati rilevati oltre 300 punti di osservazione su una porzione di territorio estesa circa 900 km2. L’analisi preliminare dei rilievi effettuati indica che le rotture osservate lungo la faglia di Paganica, per la continuità e le caratteristiche, rappresentano l’espressione superficiale della faglia responsabile dell’evento del 6 aprile 2009, e che le rotture lungo le faglie di Bazzano e di Monticchio-Fossa possono rappresentare l’espressione in superficie di una struttura antitetica riattivata durante l’evento.

Description: Published

Description: 1-79

Description: 3.2. Tettonica attiva

Description: N/A or not JCR

Description: open

Keywords: coseismic ruptures ; Central Apennines ; April, 6 2009 earthquake ; Aterno valley ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

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Surface Rupture of the November 2002 M7.9 Denali Fault Earthquake, Alaska, and Comparison to Other Strike-Slip Ruptures (2005)

Haeussler, P. J. ; Schwartz, D. P. ; Dawson, T. E. ; [et al.]

Earthquake Engineering Research Institute

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Publication Date: 2020-12-14

Description: On November 3, 2002, a moment-magnitude (Mw) 7.9 earthquake produced 340 km of surface rupture on the Denali fault and two related faults in central Alaska. The rupture, which proceeded from west to east, began with a 40-km-long break on a previously unknown thrust fault. Estimates of surface slip on this thrust were 3-6 m. Next came the principal surface break, along 220 km of the Denali fault. There, right-lateral offset averaged almost 5 m and increased eastward to a maximum of nearly 9 m. Finally, slip turned southeastward onto the Totschunda fault, where dextral offsets up to 3 m continued for another 70 km. This three-part rupture ranks among the longest documented strike-slip events of the past two centuries. The surface-slip distribution supports and clarifies models of seismological and geodetic data that indicated initial thrusting followed by rightlateral strike slip, with the largest moment release near the east end of the Denali fault. The Denali fault ruptured beneath the Trans-Alaska oil pipeline. The pipeline withstood almost 6 m of lateral offset, because engineers designed it to survive such offsets based on pre-construction geological studies. The Denali fault earthquake was typical of large-magnitude earthquakes on major intracontinental strike-slip faults, in the length of the rupture, the multiple fault strands that ruptured, and the variable slip along strike.

Description: Published

Description: 565-578

Description: open

Keywords: Earth crust ; earthquakes ; faulting ; slip ; pipelines ; Denali fault ; Susitna Glacier fault ; Totschunda fault ; Surface rupture ; November 3, 2002 M7.9 earthquake ; Alaska ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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The 2012 Emilia earthquake in northern Italy: coseismic geological effects within a compressive tectonic framework. (2015)

EMERGEO, Working Group ; Montone, P. ; Alessio, G. ; [et al.]

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Publication Date: 2015-01-20

Description: On May 20 2012 a Ml 5.9 seismic event hit the Emilia Po Plain area (northern Italy) triggering an intense earthquake activity along a broad area of the Plain. Nine days later, on May 29 a Ml 5.8 event occurred roughly 10 km to the SW of the first main shock; these events caused 26 victims and several injured and damages. The aftershock area extended for more than 50 km, in WNW-ESE direction, including five major aftershocks with 5.1≤Ml≤5.3 and more than two thousands of minor events. In general, the seismic sequence was confined in the upper 10 km of depth (ISIDe, http://iside.rm.ingv.it/). The focal mechanisms calculated for the main events and also for several M〉4.5 aftershocks are almost all consistent with a compression (P-axes) N-S oriented due to thrust fault mechanisms. The two nodal planes, both E-W oriented, show a 40° southward and 60-70° northward dipping plane (QRCMT, Quick Regional Moment Tensors, http://autorcmt.bo.ingv.it/quicks.html), connected with the compressional regime of the area. From a tectonic point of view, the active Apennine thrust fronts, buried under the Po Plain Plio-Quaternary sediments, locally consist of three N-verging arcs. The most external structures, the active Ferrara and Mirandola thrusts and folds are responsible for the Emilia Romagna 2012 earthquake sequence. Just after the 20th May seismic event, the EMERGEO Working Group was active in surveying the epicentral area searching for coseismic geological effects. The survey lasted one month, involving about thirty researchers and technicians of the INGV in field and aerial investigations. Simultaneously, a laboratory-working group gathered, organized and interpreted the observations, processing them in the EMERGEO Information System (siE), on a GIS environment. The most common coseismic effects are: 1) liquefactions related to overpressure of aquifers hosted in buried and confined sand layers, occurring both as single cones or through several aligned vents forming coalescent sand blows; 2) extensional fractures with small vertical throws, apparently organized in an en-echelon pattern, observed mainly in the eastern sector and in the central area; 3) liquefactions directly associable to fractures where huge amounts of liquefied sand and fine sand was ejected from fractures tens of meters long. The dip of the fault plane, the depth of the main shock and the magnitude indeed did not induce any primary rupture at the surface.

Description: Unpublished

Description: San Francisco, CA, USA

Description: 2T. Tettonica attiva

Description: open

Keywords: Coseismic geologic effects ; Liquefaction ; Emilia ; Italy ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Poster session

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New constraints on the seismic history of the Castrovillari fault in the Pollino gap (Calabria, southern Italy) (2005)

Cinti, F. R. ; Moro, M. ; Pantosti, D. ; [et al.]

Kluwer Academic Publishers

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Publication Date: 2017-04-03

Description: The Pollino Range area represents the most prominent gap in seismicity within the southern Apennines. Geomorphic and trenching investigations along the Castrovillari fault indicate that this normal fault is a major seismogenic fault within the southern part of this gap. At least four surface-faulting earthquakes have occurred on this fault since late Pleistocene age. Radiocarbon dating coupled with historical consideration set the time of the most recent earthquake as most likely to be between 530 A.D. and 900 A.D., with the possible widest interval of 530–1100 A.D. No evidence for this event has been found in the historical records, although its age interval falls within the time spanned by the seismic catalogues. Slip per event ranges between 0.5 and 1.6 m, with a minimum rupture length of 13 km. These values suggest a M 6.5–7.0 for the paleoearthquakes. The minimum long-term vertical slip rate obtained from displaced geomorphic features is of 0.2–0.5 mm/yr. A vertical slip-rate of about 1 mm/yr is also inferred from trenching data. The inter-event interval obtained from trench data ranges between 940 and 7760 years (with the young part of the interval possibly more representative; roughly 940–3000 years). The time elapsed since the most recent earthquake ranges between a minimum of 900–1100 and a maximum of 1470 years. The seismic behavior of this fault appears to be consistent with that of other major seismogenic faults of the central-southern Apennines. The Pollino case highlights the fact that geological investigations represent a potentially useful technique to characterize the seismic hazard of ‘silent’ areas for which adequate historical and seismological data record are not available.

Description: Published

Description: 199-217

Description: N/A or not JCR

Description: reserved

Keywords: seismic fault behavior ; seismic gap ; seismogenic fault ; southern Italy ; surface faulting ; paleoearthquakes ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Looking for surface faulting ancestors of the l'Aquila April 6, 2009 event: preliminary paleoseismological data and seismic hazard implications (2010)

Cinti, F. R. ; Civico, R. ; Cucci, L. ; [et al.]

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Publication Date: 2017-04-04

Description: The occurrence of the Mw 6.3, April 6, 2009 earthquake has highlighted how critical is the knowledge of the location and of the characteristics of the active faults in a seismic region. This is true not only as a contribution to the seismic hazard assessment but also for the local planning of residential areas, plants and infrastructures. The 2009 earthquake occurred on the Paganica normal fault (PF hereinafter) and produced 3 km-long, maximum 0.1 m-high surface ruptures along its central section, as well as secondary slip along nearby tectonic structures and secondary effects such as liquefaction and landslides over a wide area.We will show the preliminary results from the analysis of a “special” site where an amazing “coseismic” trench, caved by the overpressure produced by the broken pipe of an aqueduct, provided the exposure of a 30-m wide fault zone of the PF, as well as from other cuts crossing the most recent scarp of the PF

Description: Published

Description: Palazzo Congressi della Stazione Marittima, Molo Bersaglieri 3, Trieste, ITALY

Description: 3.2. Tettonica attiva

Description: open

Keywords: L'Aquila April 6, 2009 earthquake ; Seismic Hazard ; Paganica Fault ; paleoearthquakes ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Extended abstract

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Long-term expression of the Paganica Fault vs. 2009 L’Aquila Earthquake surface ruptures: looking for a better understanding of its seismic behavior (2010)

Civico, R. ; Pucci, S. ; De Martini, P. M. ; [et al.]

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Publication Date: 2017-04-04

Description: The Mw6.3, April 6, 2009 earthquake occurred on the previously identified Paganica normal fault and produced a 3 km-long co-seismic surface rupture along its northern section, with few centimeters of vertical displacement. Extensive 1:10,000-scale geological and geomorphological mapping has been carried out, focusing on the characterization of the long-term expression of the Paganica Fault at the surface. The field mapping was integrated by observations, made on 1:33,000 scale aerial photographs (GAI), 5-m-resolution Digital Elevation Model and standard morphometric derivatives (hill-shaded and slope angle maps, Spatial Analyst™). Particular attention was devoted to the study of the continental deposits and landforms affected by cumulative offset with the aim to reconstruct the Quaternary deformational history of the fault. The fault runs for a total length of 20 km and, along with antithetic faults on its hanging-wall, forms the graben of the Middle Aterno River Valley. The whole fault system and the variable setting of deformation affecting the continental deposits at the surface were identified. The Paganica long-term morphologic signature is represented by a set of prominent scarps formed by the tectonic juxtaposition of late Pliocene-middle Pleistocene and late Pleistocene alluvial deposits, and by lower scarps in late Pleistocene-Holocene deposits. In addition, evident Quaternary erosional and depositional paleosurfaces were recognized and sampled for 14C and OSL (Optically Stimulated Luminescence) and tephra chronology dating for long-term slip-rate calculations. This study resulted helpful to locate four paleoseismological investigations (see Pantosti et al. talk) and to provide the appropriate context for correctly interpret the depositional bodies outcropping on the trench walls. These paleoseismological investigations evidenced the presence of repeated late Pleistocene-Holocene activity and allowed for slip-rate estimation at a shorter time-scale. Such estimates were valuable for a comparison with the preliminary estimates on late Pleistocene calculations carried out by geomorphological investigations. Moreover, we correlated co-seismic deformations with the long-term morphologies and structures. The 2009 co-seismic ruptures show a general coherence with the long-term Paganica fault trace, both in terms of location and style. However, the limited extent of the 2009 surface ruptures coincides with the portion of the fault trace where deformation is more localized and few splays contribute to the extension. This is also testified by the presence on its hanging-wall of a large late Pleistocene-Holocene alluvial fan that subsides over the basin depocenter. Conversely, where the Paganica fault system branches out, various splays accommodated the small 2009 co-seismic throw, resulting in a distributed and not evident extensional strain. The preserved fault-related geomorphology is evidence for the persistence of the rupture complexities during Quaternary. On this light, further studies on the style of fault activity are needed to estimate if the Paganica fault is capable of earthquakes with Magnitude larger than the 2009 event.

Description: Submitted

Description: Vienna, Austria

Description: open

Keywords: Quaternary deformation ; long-term slip-rate ; fault-related geomorphology ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: Abstract

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The 1997 Umbria-Marche (Italy) earthquake sequence: relationship between ground deformation and seismogenic structure (2005)

Cinti, F. R. ; Cucci, L. ; Marra, F. ; [et al.]

American Geophysical Union

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Publication Date: 2017-04-04

Description: A field survey performed during the 1997 Umbria-Marche earthquake sequence led us to recognize ground and pavement ruptures associated with the three largest shocks (M〉= 5.7). The ruptures are concentrated in narrow bands that, in part, are on and near previously mapped high-angle normal fauts. The geometry of the ground deformation is consistent with the NE-trending extension indicated by CMT focal solutions of the mainshocks. The distribution of aftershocks suggests that the three mainshocks occurred on ~40 degree SW-dipping normal faults. Geological investigations, modelling of expected coseismic elevation changes, and seismic data, suggest that the surface deformation is not the direct result of primary rupture of faults at depth.

Description: Published

Description: 895-898

Description: reserved

Keywords: Structural geology ; Fractures and faults ; Seismology ; Seismicity and seismotectonics ; Europe ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Surface Rupture and Slip Distribution of the Denali and Totschunda Faults (2005)

Haeussler, P. J. ; Schwartz, D. P. ; Dawson, T. E. ; [et al.]

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Publication Date: 2017-04-04

Description: The 3 November 2002 Denali fault, Alaska, earthquake resulted in 341 km of surface rupture on the Susitna Glacier, Denali, and Totschunda faults. The rupture proceeded from west to east and began with a 48-km-long break on the previously unknown Susitna Glacier thrust fault. Slip on this thrust averaged about 4 m (Crone et al., 2004). Next came the principal surface break, along 226 km of the Denali fault, with average right-lateral offsets of 4.5–5.1 m and a maximum offset of 8.8 m near its eastern end. The Denali fault trace is commonly left stepping and north side up. About 99 km of the fault ruptured through glacier ice, where the trace orientation was commonly influenced by local ice fabric. Finally, slip transferred southeastward onto the Totschunda fault and continued for another 66 km where dextral offsets average 1.6–1.8 m. The transition from the Denali fault to the Totschunda fault occurs over a complex 25-km-long transfer zone of right-slip and normal fault traces. Three methods of calculating average surface slip all yield a moment magnitude of Mw 7.8, in very good agreement with the seismologically determined magnitude of M 7.9. A comparison of strong-motion inversions for moment release with our slip distribution shows they have a similar pattern. The locations of the two largest pulses of moment release correlate with the locations of increasing steps in the average values of observed slip. This suggests that slipdistribution data can be used to infer moment release along other active fault traces.

Description: Published

Description: S23–S52

Description: reserved

Keywords: Surface Rupture ; Slip Distribution ; Denali fault ; Totschunda fault ; 3 November 2002 M 7.9 Earthquake ; Alaska ; 04. Solid Earth::04.04. Geology::04.04.01. Earthquake geology and paleoseismology

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

Format: 2137599 bytes

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