3D horizon and fault geometries and attributes RETRACE-3D geological model (Central Apennines)

File Identifier: ispra_rm:3D-Retrace-MEET-MD

Metadata Language: Italian

Metadata Character Set utf8

Parent ID: ispra_rm:3D-Retrace-MEET-MD

Hierarchy level: Dataset

???catalog.mdParam.rndt.general.hierarchyLevelName Dataset

Metadata Responsibile:

Organization name: Istituto Superiore per la Protezione e la Ricerca Ambientale

Role: Point Of Contact

Contact Info:

E-mail: metadatainfo@isprambiente.it

Website: http://portalesgi.isprambiente.it/

Metadata Date Stamp: 2020-11-10

Standard name: Linee Guida RNDT

Standard version: 2.0

Reference System Information: ETRS89-GRS80

Identifier: ispra_rm:geo3d_r3d

Codespace/DOI: https://doi.org/10.82575/ispra_rm:geo3d_r3d

Series ID: ispra_rm:geo3d_r3d

Abstract: The RETRACE-3D geological model of the central Apennines (area affected by the 2016-2018 seismic sequence) consists of stratigraphic boundaries of geological units with homogeneous behavior and main faults of the area. This dataset is derived from the RETRACE-3D geological model, it includes the 3D geometries of six stratigraphic boundaries (pre-Triassic - Miocene) and of geometries of 47 faults pertaining to different fault systems. The horizons are described through the following semantically harmonized attributes: type_contact, age_min, age_max, evaluation_method, observation_method; the geologic units above and below each geometry are also indicated. The faults are described with mean geometric attributes, boolean attributes (active_fault, seismogenic_fault, capable_fault) and the semantically harmonized attributes: type_fault, evaluation_method, observation_method. This harmonization is based on the outcomes of the GO-PEG European project. The finalization of the harmonization process have been realized within the MEET project [funded by European Union - National Recovery and Resilience Plan (NRRP) - Mission 4, “Education and Research” - Component 2, “From Research to Business” – Investment Line 3.1, “Fund for the creation of an integrated system of research and innovation infrastructures” - Project Code IR0000025 - MEET].

Language: Italian

Character set: UTF-8, 8-bit variable size UCS Transfer Format

Information:

Title: 3D horizon and fault geometries and attributes RETRACE-3D geological model (Central Apennines)

Date:

Date 2026-03-02

Date Type Publication Date

Resource responsible:

Organization name: Istituto Superiore per la Protezione e la Ricerca Ambientale

Role: Owner

Contact Info:

E-mail: urp@isprambiente.it

Website: https://www.isprambiente.it/

Organization name: ISPRA - Dipartimento Servizio Geologico d'Italia

Role: Resource Provider

Contact Info:

Phone: +390650071

E-mail: portalesgi@isprambiente.it

Website: http://portalesgi.isprambiente.it/

Contact point:

Organization name: ISPRA - Dipartimento per il Servizio Geologico d'Italia

Role: Point Of Contact

Contact Info:

Phone: +390650071

E-mail: portalesgi@isprambiente.it

Website: http://portalesgi.isprambiente.it

Presentation format: mapDigital

Update frequency: When needed

Type of spatial representation: Vectorial data

Equivalent Scale: 1: 5000

ISO topic categories:

geoscientific Information

Keywords:

Keyword: Geologia

Thesaurus:

Title: GEMET - INSPIRE themes, version 1.0

Date:

Date 2008-06-01

Date Type Publication Date

Keyword: environment

Thesaurus:

Title: GEMET - Concepts, version 2.4

Date:

Date 2019-01-28

Date Type Publication Date

Keyword: open data

Keyword: modello geologico 3D

Keyword: nazionale

Keyword: geological 3D model

Keyword: Po plain

Keyword: Pianura padana

Keyword: geologia

Keyword: sedimentazione (geologia)

Keyword: geology

Keyword: sedimentation basin

Keyword: GO-PEG

Keyword: DOI

Keyword: GO-DEPTH

Keyword: MEET

Geographical area:

West Bounding Longitude 6.4039

East Bounding Longitude 19.0973

North Bounding Latitude 47.1731

South Bounding Latitude 36.2531

Use Limitation: The subsurface dataset is derived from a geological 3D model that simplifies geology. The users acknowledge that the authors have made every reasonable effort to verify the information in the 3D geological model. There is no guarantee that the data provided is correct at any given underground point.Il dataset di sottosuolo è derivato da un modello geologico 3D che è una semplificazione della geologia reale. Gli utenti riconoscono agli autori di aver compiuto ogni ragionevole sforzo per verificare le informazioni nel modello geologico 3D.

Legal Constraints:

Access Contraints:

Other Constraints:

Legal Constraints:

Usage Constraints: Other Restrictions

Other Constraints: https://creativecommons.org/licenses/by/4.0/deed.it

Distribution Format:

Format Name gml+xml

Format Version 3.2.1

Distribution Format:

Format Name geo+json

Format Version 1

Distribution Format:

Format Name geopackage+sqlite3

Format Version 1.2

Transfer Options:

URL: https://sgi3.isprambiente.it/geoserver_api/MEET-3D/ows?service=WMS&version=1.3.0&request=GetCapabilities

Transfer Options:

URL: https://sgi3.isprambiente.it/geoserver_api/MEET-3D/ows?service=WFS&acceptversions=2.0.0&request=GetCapabilities

Transfer Options:

URL: https://sgi3.isprambiente.it/meetgeoservice/M3D/R3D_ingombro/ows?service=WMS&version=1.3.0&request=GetCapabilities

Transfer Options:

URL: https://sgi3.isprambiente.it/meetgeoservice/M3D/R3D_ingombro/ows?service=WFS&acceptversions=2.0.0&request=GetCapabilities

Distributor:

Distributor Contact:

Organization name: ISPRA - Istituto Superiore per la Protezione e la Ricerca Ambientale

Role: Distributor

Contact Info:

E-mail: geomod3D@isprambiente.it

Quality level: Dataset

Conformity:

Conformity Level: true

Description: Fare riferimento alle specifiche indicate

Conformity:

Title: REGOLAMENTO (UE) N. 1089/2010 DELLA COMMISSIONE del 23 novembre 2010 recante attuazione della direttiva 2007/2/CE del Parlamento europeo e del Consiglio per quanto riguarda l'interoperabilità dei set di dati territoriali e dei servizi di dati territoriali

Date:

Date 2010-12-08

Date Type Publication Date

Conformity:

Conformity Level: true

Description: Geology/GeoSciML 4.1 - GeologicUnit

Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

Date:

Date 2013-12-10

Date Type Publication Date

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Conformity Level: true

Description: Geology/GeoSciML 4.1 - GeologicUnit

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

Description: Geology/GeoSciML 4.1 - GeologicUnit

Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

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Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

Description: Geology/GeoSciML 4.1 - GeologicUnit

Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

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Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

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Conformity:

Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Date 2013-12-10

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Conformity Level: true

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Title: INSPIRE Data Specification on Geology - Technical Guidelines

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Positional accuracy:

Value: m 5 m

Lineage: The geological model is the result of the RETRACE-3D project (https://doi.org/10.13127/retrace-3d/geomod.2021). It is based on the interpretation of a large dataset of seismic reflection lines and the integration with well data and constraints derived from surface geology. As a first step, a 3D time-domain model of horizons and faults was built, from which a set of 26 sections oriented E-W and NE-SW, spaced 5 km apart, was extracted. These sections were converted to depth using a velocity model based on homogeneous interval velocities for each reference stratigraphic unit. The converted sections were then integrated with geological cross-sections useful for detailing the area at the hangingwall of the Sibillini thrust, which is poorly covered by seismic lines. From these sections, the surfaces of horizons and faults that make up the final three-dimensional model were interpolated. The final surfaces were generated by sampling grids with a node spacing of 500 meters. After the publication of the final 3D geological model, further activities have been realized in the MEET project to supplement geometries with semantically harmonized attributes, based on the outcomes of the GO-PEG European project.