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- Category: datasets
Probability Map of Distributed Faulting in Italy
The Probability map of distributed faulting in Italy was obtained by combining information derived from two public databases: the DISS database (https://diss.ingv.it/), that is a geospatial repository that includes seismogenic sources, i.e. major active faults deemed to generate damaging earthquakes and as such used for assessing earthquake hazards, and the ITHACA database (https://sgi.isprambiente.it/ithacaweb/default.aspx#1) that collects available information on active and capable faults affecting the Italian territory, based on a critical review of the available literature.
In order to estimate the probability that a capable fault from the ITHACA database produces surface ruptures following earthquakes generated by the seismogenic sources of the DISS database, the elements of the two datasets are integrated into a system of principal and distributed faulting, a framework commonly adopted in coseismic surface faulting hazard studies. Specifically, the upper tip of the CSS seismogenic sources of DISS are treated as principal faults along which primary faulting occurs. Conversely, the capable faults from the ITHACA database are assimilated into distributed faulting phenomena that develop in association with primary faulting.
The selection of models for estimating the conditional probability of distributed faulting occurrence was guided by: (i) their compatibility with the methodological approach developed for the DISS–ITHACA interoperability; (ii) the updated status of the reference databases adopted; and (iii) the consistency of each model’s applicability range with the Italian seismotectonic setting. Consequently, for each kinematic style, the most up-to-date model best aligned with this framework was selected: for normal faults, we selected the model by Ferrario and Livio (2021), whereas for reverse and strike-slip faults, the models by Takao et al. (2014) were adopted.
Ferrario, M. F., and Livio, F. (2021). Conditional probability of distributed surface rupturing during normal‐faulting earthquakes. Solid Earth, 12(5), 1197–1209. https://doi.org/10.5194/se‐12‐1197‐2021.
Takao, M., Ueta, K., Annaka, T., Kurita, T., Nakase, H., Kyoya, T., & Kato, J. (2014). Reliability improvement of probabilistic fault displacement hazard analysis. Journal of Japan Association for Earthquake Engineering, 14(2), 2‐16–2‐36. https://doi.org/10.5610/jaee.14.2_16.
shown as dark orange line. The ITHACA faults as red lines, the yellow line is the DISS 100 km area of relevance.
ITHACA faults are shown as red lines, the yellow line is the DISS 100 km area of relevance.
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- Category: datasets
Database of Surface Faulting events in ITaly - SFIT
These rupture lines could be followed for a total extent of about 22 km. Credit: INGV.
The database of Surface Faulting events of Italy (SFIT) is a comprehensive compilation of published data on earthquake surface fault ruptures in Italy over the last century. The first release of the database documents six major events: the 1915 Avezzano (M7.0), 1980 Irpinia (M6.9), 1997 Umbria-Marche (M6.0), 2009 L’Aquila (M6.3), 2016 Norcia (M6.6), and 2018 Etna-Fleri (M5.0) earthquakes.
SFIT integrates, organizes, and harmonizes heterogeneous datasets derived from previously published compilations and scientific literature into a unified structure. All data included in the database are derived from previously published data sources. The database spans different tectonic environments and includes earthquakes with different magnitudes, rupture styles, and geological contexts.
Over the past decades, both the quantity and the resolution of available observations have increased significantly. While historical earthquakes inevitably carry greater spatial uncertainty, SFIT applies modern standards of data organization, image documentation, and georeferencing to ensure that these records remain scientifically robust and comparable through time.
SFIT contains a wide range of information on points and traces of surface rupture collected in the field. The primary value of SFIT lies in its ability to centralize several data types within a single, searchable, open-access database. In addition, SFIT provides for the first time a collection of images, primarily photographic documentation, georeferenced and associated with the surface ruptures, representing a precious visual record of the observed deformation. The significance of mapped surface ruptures is classified following the original interpretation in the data source through a ranking code that systematically distinguishes principal ruptures from distributed, triggered, or ground-shaking-induced ruptures.
Principal coseismic surface ruptures represent the direct geomorphic expression of slip occurring along a fault during an earthquake (i.e. surface faulting). Their spatial distribution, geometry, kinematics and size provide a critical proxy for understanding the location, geometry, and kinematic behavior of the causative fault and the surrounding stress field. The systematic collection of coseismic surface rupture data is therefore essential for reconstructing earthquake rupture processes. For historical earthquakes that lack instrumental records, such observations can also be used to estimate earthquake magnitudes and to constrain the location and geometry of the causative fault. At the same time, coseismic fault displacement represents a localized source of hazard associated with surface-rupturing earthquakes, as it can directly affect settlements, infrastructure, and the landscape. By documenting the physical impact of surface faulting on both the natural environment and the built environment, SFIT provides an important resource for seismic hazard assessment and for improving the mitigation of risks associated with future surface-faulting earthquakes. The database can also be a reference for rapid scientific surveys during seismic emergencies, particularly for field teams operating on the ground, such as those involved in the long-standing Emergeo Working Group coordinated by INGV.
SFIT is designed as a living resource and will be progressively updated through new releases that incorporate additional events and datasets, ensuring its long-term value for both the scientific community and stakeholders involved in seismic risk management.
in the background. Credit: INGV.
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- Category: datasets
PDF-Italy attributes description
|
Field |
Variable |
Unit |
Description |
|
PDF-IT_ID |
Integer |
n.a. |
Identifier of the polygon. |
|
Lat_WGS84 |
Float |
Degrees |
Latitude of the center of the polygon. |
|
Lon_WGS84 |
Float |
Degrees |
Longitude of the center of the polygon. |
|
DISS_ID |
String |
n.a. |
Identifier of the CSS vertex that is the primary contributor of the conditional probability for that polygon. |
|
Distance |
Float |
Km |
Distance in kilometers to the specific CSS vertex that is the primary contributor of the conditional probability for that polygon. |
|
n_contrib |
Integer |
n.a. |
Total number of the CSS vertices contributing to the aggregated conditional probability of distributed faulting calculated on the center of the polygon. |
|
Ptot |
Float |
n.a. |
Aggregated conditional probability of distributed faulting calculated on the center of the polygon. |
|
Ptot_n |
Float |
n.a. |
Normalized total probability obtained dividing the total aggregated probability of distributed faulting by the number of contributing CSS vertices. |
|
Field |
Variable |
Unit |
Description |
|
PDF-IT_ID |
Integer |
n.a. |
Identifier of the polygon. |
|
Lat_WGS84 |
Float |
Degrees |
Latitude of the center of the polygon. |
|
Lon_WGS84 |
Float |
Degrees |
Longitude of the center of the polygon. |
|
DISS_ID |
String |
n.a. |
Identifier of the CSS vertex that is the primary contributor of the conditional probability for that polygon. |
|
Distance |
Float |
Km |
Distance in kilometers to the specific CSS vertex that is the primary contributor of the conditional probability for that polygon. |
|
n_contrib |
Integer |
n.a. |
Total number of the CSS vertices contributing to the aggregated conditional probability of distributed faulting calculated on the center of the polygon. |
|
Ptot |
Float |
n.a. |
Aggregated conditional probability of distributed faulting calculated on the center of the polygon. |
|
Ptot_n |
Float |
n.a. |
Normalized total probability obtained dividing the total aggregated probability of distributed faulting by the number of contributing CSS vertices. |
|
Field |
Variable |
Unit |
Description |
|
Vert_ID |
String |
n.a. |
Identifier of the ITHACA vertex. |
|
ITHACA_ID |
Integer |
n.a. |
Identifier of the ITHACA fault. |
|
Lat_WGS84 |
Float |
Degrees |
Latitude of the ITHACA vertex (EPSG:4326). |
|
Lon_WGS84 |
Float |
Degrees |
Longitude of the ITHACA vertex (EPSG:4326). |
|
DISS_ID |
String |
n.a. |
Identifier of the CSS source that is the primary contributor of the conditional probability for that polygon. |
|
Distance |
Float |
Km |
Distance in kilometers to the specific CSS vertex that is the primary contributor of the conditional probability for that polygon. |
|
n_contrib |
Integer |
n.a. |
Total number of the CSS vertices contributing to the aggregated conditional probability of distributed faulting calculated on the ITHACA fault vertex. |
|
Ptot |
Float |
n.a. |
Aggregated conditional probability of distributed faulting calculated on the ITHACA fault vertex. |
|
Ptot_n |
Float |
n.a. |
Normalized total probability obtained dividing the total aggregated probability of distributed faulting by the number of contributing CSS vertices. |
- Details
- Category: datasets
|
Field |
Variable |
Unit |
Description |
|
ID_POINT |
integer |
n.a. |
identifier of the point. |
|
ID_INTEROPERABILITY |
n.a. |
|
|
|
ID_ETQ |
string |
n.a. |
earthquake reference code with date and time from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
NAME_ETQ |
string |
n.a. |
common name of the earthquake. |
|
LAT_ETQ |
double |
degrees |
epicenter Latitude (DD, WGS84) from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
LON_ETQ |
double |
degrees |
epicenter Longitude (DD, WGS84) from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
MAG_ETQ |
double |
n.a. |
moment magnitude from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
Kinematics_ETQ (short name: K_ETQ) |
string |
n.a. |
Earthquake Kinematics: N (normal), T (reverse), SR (dextral strike-slip), SL (sinistral strike-slip), NSR (Normal with Right Lateral component) etc.; generally from focal mechanisms. |
|
ID_POINT_O |
integer |
n.a. |
identifier of the original point in the data source. When missing or not in a suitable format, it is assigned by the compilers. |
|
LAT_POINT |
double |
degrees |
point Latitude (DD, WGS84). |
|
LON_POINT |
double |
degrees |
point Longitude (DD, WGS84). |
|
ELEV_POINT |
double |
meter |
altitude of the point a.s.l. |
|
OBS_TYPE |
string |
n.a. |
coseismic rupture, coseismic warping, coseismic liquefaction, panoramic view (when the point represents the location from where a panoramic photo is taken), Dummy point (artefact to draw a rupture line with no observation points). |
|
Hangingwall Substratum (short name: HW_Subs) |
string |
n.a. |
description of the type of hangingwall substratum – when, in the original dataset, it is not specifically defined for the hangingwall, we use the generic field substratum. |
|
Footwall Substratum (short name: FW_ Subs) |
string |
n.a. |
description of the type of footwall substratum – when, in the original dataset, it is not specifically defined for the footwall, we use the generic field substratum. |
|
Strike |
double |
degrees |
direction of the rupture (right-hand rule). |
|
Dip Angle |
double |
degrees |
angle of dip along the dip direction/perpendicular to the strike. |
|
Dip Direction (short name: Dip Dir) |
double |
degrees
|
measured along the dip direction of the rupture. |
|
Length (m) (short name: Len_m) |
double |
meter |
length of the rupture. |
|
Kinematics (short name: K) |
string |
n.a. |
Kinematics of the rupture: O (opening), N (normal), T (reverse), SR (dextral strike-slip), SL (sinistral strike-slip), NSR (Normal with Right Lateral component), etc. |
|
Throw (cm) (short name: Th_cm) |
double |
centimeter |
average vertical separation between hanging wall and footwall. |
|
Throw_min (cm) (short name: Th min_cm) |
double |
centimeter |
minimum vertical separation between hanging wall and footwall. |
|
Throw_max (cm) (short name: Th max_cm) |
double |
centimeter |
maximum vertical separation between hanging wall and footwall. |
|
Lateral offset (cm) (short name: LOf_cm) |
double |
centimeter |
average lateral separation along the strike. |
|
Lateral offset_min (cm) (short name: LOf min_cm) |
double |
centimeter |
minimum lateral separation along the strike. |
|
Lateral offset_max (cm) (short name: LOf max_cm) |
double |
centimeter |
minimum lateral separation along the strike. |
|
Opening (cm) (short name: O_cm) |
double |
centimeter |
average horizontal separation (opening) between the two sides of the rupture. |
|
Opening_min (cm) (short name: O min_cm) |
double |
centimeter |
minimum horizontal separation (opening) between the two sides of the rupture. |
|
Opening_max (cm) (short name: O max_cm) |
double |
centimeter |
minimum horizontal separation (opening) between the two sides of the rupture. |
|
Vertical Warping (cm) (short name: VWarp_cm) |
double |
centimeter |
average height of the warp. |
|
Vertical Warping_min (cm) (short name: VWarp min) |
double |
centimeter |
minimum height of the warp. |
|
Vertical Warping_max (cm) (short name: VWarp max) |
double |
centimeter |
maximum height of the warp. |
|
Horizontal Warping (cm) (short name: HWarp_cm) |
double |
centimeter |
average measure of the entity of the warp. |
|
Horizontal Warping_min (cm) (short name: HWarp min) |
double |
centimeter |
minimum measure of the entity of the warp. |
|
Horizontal Warping_max (cm) (short name: HWarp max) |
double |
centimeter |
maximum measure of the entity of the warp. |
|
Net slip (cm) (short name: Nslip_cm) |
double |
centimeter |
net slip along the slip vector. |
|
Slip Vector Trend (short name: SVe_Trend) |
double |
degrees |
direction of the slip lineation, measured clockwise with respect to the north (range 0°-360°). |
|
Slip Vector Plunge (short name: SVe_Plunge) |
double |
degrees |
plunge of the slip lineation in degrees, measured with respect to the horizontal (range 0°-90°). |
|
Rake |
double |
degrees |
angle of the slip lineation on the fault plane measured in degrees (in the 0°-180° range) |
|
Fracture Zone Width (short name: FZ_Width) |
double |
meter |
width of the fracture zone across the average fault strike at the point. |
|
Start/End/Middle/Central point (short name: S_E_M_C_pt) |
string |
n.a. |
definition of point as start (S), end (E), Middle (M), Central (C) of the rupture line (ID_LINE_OR). |
|
idTrace |
integer |
n.a. |
identification number of the original line including the point. |
|
ID_PHOTO |
string |
n.a. |
labels of the photos related to the point from the data source. |
|
PHOTO_Credits |
string |
n.a. |
additional information on the observation point. |
|
NOTE |
string |
n.a. |
additional information on the observation point. |
|
References (short name: REF) |
string |
n.a. |
citation of the source of the data (doi). |
|
Author_ranking (short name: Ranking) |
integer |
n.a. |
ranking code for the significance of the feature according to the original authors: 1) principal fault ruptures, representing the surface expression of the fault responsible for the earthquake and including all the ruptures along faults that are connected to the principal fault at depth; 2) unpredictable distributed ruptures, ruptures also distant not necessarily connected to the principal fault; 3) triggered rupture along a pre-existing fault that is not directly connected to the principal fault, or along a shallow structure that is located within the coseismic deformation area; 4) ground shaking or shaking/gravity-induced rupture. Blank when no interpretation from the data source is provided. The ranking categories mostly follow the rationale defined in SURE 2.0 database (doi.org/10.1038/s41597-022-01835-z). |
|
Field |
Variable |
Unit |
Description |
|
ID_LINE |
integer |
n.a. |
identifier of the rupture line. |
|
ID_INTEROPERABILITY |
n.a. |
||
|
ID_ETQ |
string |
n.a. |
earthquake reference code with date and time from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
NAME_ETQ |
string |
n.a. |
common name of the earthquake. |
|
LAT_ETQ |
double |
degrees |
epicenter Latitude (DD, WGS84) from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
LON_ETQ |
double |
degrees |
epicenter Longitude (DD, WGS84) from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
MAG_ETQ |
double |
n.a. |
moment magnitude from CPTI https://doi.org/10.13127/cpti/cpti15.4 |
|
K_ETQ |
string |
n.a. |
Earthquake Kinematics: N (normal), T (reverse), SR (dextral strike-slip), SL (sinistral strike-slip), NSR (Normal with Right Lateral component) etc.; generally from focal mechanisms. |
|
idTrace |
integer |
n.a. |
identifier of the original rupture line in the data source. When missing or not in a suitable format, it is assigned by the compilers. |
|
OBS_TYPE |
string |
n.a. |
coseismic rupture, coseismic warping, coseismic liquefaction. |
|
Length (m) (short name: Len_m) |
double |
meter |
length of the line. |
|
Orientation (short name: Orient) |
integer |
degrees |
average strike of the trace, in degrees (right-hand rule). |
|
Kinematics (short name: K) |
string |
n.a. |
Kinematics of the rupture: O (opening), N (normal), T (reverse), SR (dextral strike-slip), SL (sinistral strike-slip), NSR (Normal with Right Lateral component), etc. |
Downthrown side (short name: Downside) |
string |
n.a. |
cardinal direction of the downthrown side of the rupture. |
|
Vertical Offset (cm) (short name: VOf_cm) |
double |
centimeter |
average vertical separation between hanging wall and footwall. |
|
Vertical Offset_min (cm) (short name: VOf min_cm) |
double |
centimeter |
minimum vertical separation between hanging wall and footwall. |
|
Vertical Offset_max (cm) (short name: VOf max_cm) |
double |
centimeter |
maximum vertical separation between hanging wall and footwall. |
|
Lateral Offset (cm) (short name: LOf_cm) |
double |
centimeter |
average lateral separation along the strike. |
|
Lateral Offset_min (cm) (short name: LOf min_cm) |
double |
centimeter |
minimum lateral separation along the strike. |
|
Lateral Offset_max (cm) (short name: LOf max_cm) |
double |
centimeter |
maximum lateral separation along the strike. |
|
Opening (cm) (short name: O_cm) |
double |
centimeter |
average horizontal separation (opening) between the two sides of the rupture. |
|
Opening_min (cm) (short name: O min_cm) |
double |
centimeter |
minimum horizontal separation (opening) between the two sides of the rupture. |
|
Opening_max (cm) (short name: O max_cm) |
double |
centimeter |
maximum horizontal separation (opening) between the two sides of the rupture. |
|
LAT_Central_POINT (short name: LAT_C_PT) |
double |
degrees |
latitude of the central point of the line (decimal degrees, WGS84). |
|
LON_Central_POINT (short name: LON_C_PT) |
double |
degrees |
longitude of the central point of the line (decimal degrees, WGS84). |
|
ID_Start POINT (short name: ID_S_PT) |
integer |
n.a. |
original identifier of starting point of the line identifier. |
|
ID_Middle POINT (short name: ID_M_ PT) |
integer |
n.a. |
original identifier of middle point of the line identifier. |
|
ID_Central POINT (short name: ID_C_PT) |
integer |
n.a. |
original identifier of central point of the line identifier. |
|
ID_End POINT (short name: ID_E_PT) |
integer |
n.a. |
original identifier of ending point of the line identifier. |
|
Uncertainty (short name: Unc) |
string |
n.a. |
observed or inferred line. |
|
Note |
string |
n.a. |
additional information on the line. |
|
References (short name: REF) |
string |
n.a. |
citation of the source of the data (doi). |
|
Author_ranking (short name: Ranking) |
integer |
n.a. |
ranking code for the significance of the feature according to the original authors (1) principal fault ruptures, representing the surface expression of the fault responsible for the earthquake and including all the ruptures along faults that are connected to the principal fault at depth; 2) unpredictable distributed ruptures, ruptures also distant not necessarily connected to the principal fault; 3) triggered rupture along a pre-existing fault that is not directly connected to the principal fault, or along a shallow structure that is located within the coseismic deformation area; 4) ground shaking or shaking/gravity-induced rupture. Blank when no interpretation from the data source is provided. The ranking categories mostly follow the rationale defined in SURE 2.0 database (doi.org/10.1038/s41597-022-01835-z). |
- Details
- Category: datasets
For further information about the dataset
Francesca Romana Cinti
Istituto Nazionale di Geofisica e Vulcanologia
Via di Vigna Murata, 605 - 00143 Roma, Italy
e-mail:
https://orcid.org/0000-0003-1068-3223
Daniela Pantosti
Istituto Nazionale di Geofisica e Vulcanologia
Via di Vigna Murata, 605 - 00143 Roma, Italy
e-mail:
https://orcid.org/0000-0001-7308-9104
Riccardo Civico
Istituto Nazionale di Geofisica e Vulcanologia
Via di Vigna Murata, 605 - 00143 Roma, Italy
e-mail:
https://orcid.org/0000-0002-5015-2155
For further information about the web services
Roberto Vallone
Istituto Nazionale di Geofisica e Vulcanologia
Via di Vigna Murata, 605 - 00143 Roma, Italy
e-mail:
http://orcid.org/0000-0003-1208-9412
