Structure type | Evaporite Diapir |
Deformed/Undeformed | Deformed |
Geological Setting | South Pyrenees Central Unit (Sierras Marginales; Boltaña-Balzes thrust sheet), Southern Pyrenees |
Outcropping/buried | Outcropping |
Evaporite unit/s name | El Pont de Suert Fm. |
Evaporite unit/s age | Upper Anisian and Carnian-Rhaetian (Middle-Upper Triassic) |
Evaporite unit/s origin | Marine |
Classif. (Hudec and Jackson, 2009) | Passive piercement |
Classif. (Jackson and Talbot, 1986) | Salt stock |
Age of evaporite flow or deformation (when deformed) | Eocene, Oligocene to Miocene |
Other comments | Also known as "Estadilla". |
Unique ID | 70 |
Name | Estada (Estadilla) |
Structure type | Evaporite diapir |
Deformed/Undeformed | Deformed |
Buried/Outcropping | Outcropping |
Geological setting | Southern Pyrenees |
Geological Regional Setting | South Pyrenees Central Unit (Sierras Marginales; Boltaña-Balzes thrust sheet) |
Evaporite unit/s name | El Pont de Suert Fm. (Middle Muschelkalk and Keuper Facies) |
Evaporite unit/s age | Upper Anisian and Carnian-Rhaetian (Middle-Upper Triassic) |
Evaporite unit/s era | Mesozoic |
Evaporite unit/s origin | Marine |
Evaporite unit/s composition | Shale-Gypsum-Anhydrite |
Post-kinematic unit/s (or post-evaporite units when evaporites are undeformed) | Quaternary (alluvial and colluvial detrital deposits) |
Post-kinematic unit/s age (or post-evaporite units when evaporites are undeformed) | Pleistocene-Holocene |
Classification (Hudec and Jackson, 2009) | Passive piercement |
Classification (Jackson and Talbot, 1986) | Salt stock |
Mining activity? | N |
Mining activity start | |
Mining activity end | |
Mining galleries? | |
Mining products | |
Mining sub-products | |
Evaporite flow? | Y |
Age of evaporite flow | Lutetian-Priabonian (early stage) ; Late Oligocene-Early Miocene (late stage) |
Flow or deformation triggering mechanisms | Translation–rotation of the western end of the Sierras Marginales thrust sheet (early stage) and compression (late stage) |
Flow-linked structures? | Y |
Halokinetic structures | Progressive unconformities / Normal faults / Thickness variations |
Post-evaporite and pre-kinematic unit/s (overbuden) | Lower Jurassic (limestones, dolostones and shales) ; Upper Santonian-Maastrichtian (calcarenites and limestones) ; Maastrichian-Paleocene (Garumn Facies, carbonates and shales) ; Palaeocene-Lower Eocene (shallow marines carbonates) ; Upper Eocene-Oligocene (evaporites and detrital deposits) |
Syn-kinematic unit/s | Lutetian-Early Priabonian (marlstones, mudstones, limestones, sandstones) ; Late Oligocene-Early Miocene (alluvial fan conglomerates) |
Available seismic profiles | HU-17 / HU-5 / HU-4 / HU-26 / SP-58 / SP-58 / SP-58 / SP-58 / HU-9-2º-PROL |
Available boreholes | |
Additional comments | – |
UNIQUE_ID | 70 |
Minning exploitations within <2km? | N |
Historical/Active | |
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Exploitation ID (Spanish National Mining Cadastre) #1 | |
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UNIQUE_ID | 70 |
Outcropping area (km2) | 3.30961 |
Horizontal intersection area (km2) (when buried) | Not buried |
Depth of intersection area (km2) (when buried) | Not buried |
Max. Width (Km) | 2.02759355 |
Max. Length (Km) | 2.28791316 |
Max. Evaporites thickness (km) | 0.8 |
Max. Deformation age (Ma) | 47 |
Min. Deformation age (Ma) | 20 |
Deformation stages | 2 |
UNIQUE_ID | 70 |
Section source | Santolaria, P., Casas-Sainz, A. M., Soto, R., Pinto, V., Casas, A., 2014. The Naval diapir (Southern Pyrenees): Geometry of a salt wall associated with thrusting at an oblique ramp. Tectonophysics, 637, 30-44. [link] |
Well / Borehole availability #1 | Muñoz, J. A., Mencos, J., Roca, E., Carrera, N., Gratacós, O., Ferrer, O., Fernández, O., 2018. The structure of the South-Central-Pyrenean fold and thrust belt as constrained by subsurface data. Geologica Acta, 16(4), 439-460. [link] |
Well / Borehole availability #2 | Cámara, P., Flinch, J. F., 2017. The southern Pyrenees: a salt-based fold-and-thrust belt. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 395-415). Elsevier. [link] |
Available data (Stratigraphy) #1 | Salvany, J. M., Bastida, J., 2004. Análisis litoestratigráfico del Keuper surpirenaico central. Revista de la Sociedad Geológica de España, 17(1), 3-26. [link] |
Available data (Stratigraphy) #2 | Santolaria, P., Luzon, A., Casas, A. M., Soto, R., 2015. Coupling far and near tectonic signals in syn-orogenic sediments: the Olvena growth strata (Sierras Marginales, southern Pyrenees). Geologica Acta, 13(4), 297-308. [link] |
Available data (Stratigraphy) #3 | Chanvry, E., Deschamps, R., Joseph, P., Puigdefàbregas, C., Poyatos-Moré, M., Serra-Kiel, J., …, Teinturier, S., 2018. The influence of intrabasinal tectonics in the stratigraphic evolution of piggyback basin fills: Towards a model from the Tremp-Graus-Ainsa Basin (South-Pyrenean Zone, Spain). Sedimentary Geology, 377, 34-62. [link] |
Available data (Stratigraphy) #4 | Muñoz, J. A., Mencos, J., Roca, E., Carrera, N., Gratacós, O., Ferrer, O., Fernández, O., 2018. The structure of the South-Central-Pyrenean fold and thrust belt as constrained by subsurface data. Geologica Acta, 16(4), 439-460. [link] |
Available data (Stratigraphy) #5 | Barnolas, A., Gil-Peña, I., 2001. Ejemplos de relleno sedimentario multiepisódico en una cuenca de antepaís fragmentada: La Cuenca Surpirenaica. Boletín Geológico y Minero, 112(3), 17-38. [link] |
Available data (Stratigraphy) #6 | Cámara, P., Flinch, J. F., 2017. The southern Pyrenees: a salt-based fold-and-thrust belt. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 395-415). Elsevier. [link] |
Regional Stratigraphy | Santolaria, P., Ayala, C., Pueyo, E. L., Rubio, F. M., Soto, R., Calvín, P., …, Casas‐Sainz, A. M., 2020. Structural and geophysical characterization of the western termination of the South Pyrenean triangle zone. Tectonics, 39(8), e2019TC005891. [link] |
Seismic data availability #1 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Pinto, V., Casas, A., 2014. The Naval diapir (Southern Pyrenees): Geometry of a salt wall associated with thrusting at an oblique ramp. Tectonophysics, 637, 30-44. [link] |
Seismic data availability #2 | Cámara, P., Flinch, J. F., 2017. The southern Pyrenees: a salt-based fold-and-thrust belt. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 395-415). Elsevier. [link] |
Seismic data availability #3 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Casas, A., 2017. Gravity modelling to assess salt tectonics in the western end of the South Pyrenean Central Unit. Journal of the Geological Society, 174(2), 269-288. [link] |
Available data (Structure) #1 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Pinto, V., Casas, A., 2014. The Naval diapir (Southern Pyrenees): Geometry of a salt wall associated with thrusting at an oblique ramp. Tectonophysics, 637, 30-44. [link] |
Available data (Structure) #2 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Casas, A., 2017. Gravity modelling to assess salt tectonics in the western end of the South Pyrenean Central Unit. Journal of the Geological Society, 174(2), 269-288. [link] |
Available data (Structure) #3 | Santolaria, P., Luzon, A., Casas, A. M., Soto, R., 2015. Coupling far and near tectonic signals in syn-orogenic sediments: the Olvena growth strata (Sierras Marginales, southern Pyrenees). Geologica Acta, 13(4), 297-308. [link] |
Available data (Structure) #4 | Fernández, O., Muñoz, J. A., Arbués, P., Falivene, O., 2012. 3D structure and evolution of an oblique system of relaying folds: the Ainsa basin (Spanish Pyrenees). Journal of the Geological Society, 169(5), 545-559. [link] |
Available data (Structure) #5 | Cámara, P., Flinch, J. F., 2017. The southern Pyrenees: a salt-based fold-and-thrust belt. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 395-415). Elsevier. [link] |
Available data (Structure) #6 | Muñoz, J. A., Mencos, J., Roca, E., Carrera, N., Gratacós, O., Ferrer, O., Fernández, O., 2018. The structure of the South-Central-Pyrenean fold and thrust belt as constrained by subsurface data. Geologica Acta, 16(4), 439-460. [link] |
Available data (Analogue modelling) #1 | n.a. |
Available data (Analogue modelling) #2 | n.a. |
Available data (Analogue modelling) #3 | n.a. |
Available data (Gravimetry – Tomography) #1 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Pinto, V., Casas, A., 2014. The Naval diapir (Southern Pyrenees): Geometry of a salt wall associated with thrusting at an oblique ramp. Tectonophysics, 637, 30-44. [link] |
Available data (Gravimetry – Tomography) #2 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Casas, A., 2017. Gravity modelling to assess salt tectonics in the western end of the South Pyrenean Central Unit. Journal of the Geological Society, 174(2), 269-288. [link] |
Available data (Gravimetry – Tomography) #3 | Casas, A., Santolaria, P., Rivero, L., Casas-Sainz, A., Himi, M., Pinto, V., Sendrós, A., 2016. The gravity method: new challenges for delineation diapiric structures in north-east Spain. First Break, 34(8). [link] |
Available data (Geochemistry) #1 | Salvany, J. M., Bastida, J., 2004. Análisis litoestratigráfico del Keuper surpirenaico central. Revista de la Sociedad Geológica de España, 17(1), 3-26. [link] |
Available data (Geochemistry) #2 | n.a. |
Available data (Geochemistry) #3 | n.a. |
Available data (Geochemistry) #4 | n.a. |
Available data (Petrophysics) #1 | Santolaria, P., Casas-Sainz, A. M., Soto, R., Casas, A., 2017. Gravity modelling to assess salt tectonics in the western end of the South Pyrenean Central Unit. Journal of the Geological Society, 174(2), 269-288. [link] |
Available data (Petrophysics) #2 | Muñoz, J. A., Beamud, E., Fernández, O., Arbués, P., Dinarès‐Turell, J., Poblet, J., 2013. The Ainsa Fold and thrust oblique zone of the central Pyrenees: Kinematics of a curved contractional system from paleomagnetic and structural data. Tectonics, 32(5), 1142-1175. [link] |
IGME Geological Map (MAGNA50) Sheet number | 288-Fonz. [link] |
Other Maps #1 (source) | Muñoz, J. A., Mencos, J., Roca, E., Carrera, N., Gratacós, O., Ferrer, O., Fernández, O., 2018. The structure of the South-Central-Pyrenean fold and thrust belt as constrained by subsurface data. Geologica Acta, 16(4), 439-460. [link] |
Other Maps #2 (source) | Santolaria, P., Casas-Sainz, A. M., Soto, R., Casas, A., 2017. Gravity modelling to assess salt tectonics in the western end of the South Pyrenean Central Unit. Journal of the Geological Society, 174(2), 269-288. [link] |
Other related references #1 | Arenas, C., Millán, H., Pardo, G., Pocoví, A., 2001. Ebro Basin continental sedimentation associated with late compressional Pyrenean tectonics (north‐eastern Iberia): controls on basin margin fans and fluvial systems. Basin Research, 13(1), 65-89. [link] |
Other related references #2 | Balaguer, J. F., Casas-Sainz, A. M., 2016. Estructura de la terminación occidental del cabalgamiento del Montsec (Pirineos Centrales). Revista de la Sociedad Geológica de España, 29(2), 39-56. [link] |
Other related references #3 | Garrido, H. M., Morer, E. P., Cardona, M. A., Aguado, A. L., Urcia, B. O., Peña, B. M., 2000. Actividad tectónica registrada en los depósitos terciarios del frente meridional del Pirineo central. Revista de la Sociedad Geológica de España, 13(2), 279-300. [link] |
Other related references #4 | n.a. |
UNIQUE_ID | 70 |
Seismic survey name #1 | 10D1-HU |
Across structure? #1 | N (within 3km) |
Seismic profile ID (IGME) #1 | 10081 |
Seismic profile code #1 | 14654 |
Seismic profile name #1 | HU-17 |
Seismic survey year #1 | 1979 |
Data repository #1 | SIGEOF Data Catalogue (Section available under request). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #1 | 16.46 |
Seismic survey name #2 | 10D1-HU |
Across structure? #2 | N (within 3km) |
Seismic profile ID (IGME) #2 | 10065 |
Seismic profile code #2 | 14638 |
Seismic profile name #2 | HU-5 |
Seismic survey year #2 | 1979 |
Data repository #2 | SIGEOF Data Catalogue (Section available under request). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #2 | 15.07 |
Seismic survey name #3 | 10D1-HU |
Across structure? #3 | N (within 3km) |
Seismic profile ID (IGME) #3 | 10066 |
Seismic profile code #3 | 14639 |
Seismic profile name #3 | HU-4 |
Seismic survey year #3 | 1979 |
Data repository #3 | SIGEOF Data Catalogue (Section available under request). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #3 | 44.89 |
Seismic survey name #4 | 10D1-HU |
Across structure? #4 | N (within 3km) |
Seismic profile ID (IGME) #4 | 10073 |
Seismic profile code #4 | 14646 |
Seismic profile name #4 | HU-26 |
Seismic survey year #4 | 1979 |
Data repository #4 | SIGEOF Data Catalogue (Section available under request). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #4 | 12.56 |
Seismic survey name #5 | 10D1-SP |
Across structure? #5 | N (within 3km) |
Seismic profile ID (IGME) #5 | 15449 |
Seismic profile code #5 | 20189 |
Seismic profile name #5 | SP-58 |
Seismic survey year #5 | 1979 |
Data repository #5 | SIGEOF Data Catalogue (Section available under request). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #5 | 16.63 |
Seismic survey name #6 | 0116A80G |
Across structure? #6 | N (within 3km) |
Seismic profile ID (IGME) #6 | 5394 |
Seismic profile code #6 | 7762 |
Seismic profile name #6 | SP-58 |
Seismic survey year #6 | 1980 |
Data repository #6 | SIGEOF Data Catalogue (Private access section). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #6 | 19.59 |
Seismic survey name #7 | 0116A80U |
Across structure? #7 | N (within 3km) |
Seismic profile ID (IGME) #7 | 5556 |
Seismic profile code #7 | 8458 |
Seismic profile name #7 | SP-58 |
Seismic survey year #7 | 1980 |
Data repository #7 | SIGEOF Data Catalogue (Private access section). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #7 | 19.58 |
Seismic survey name #8 | 0116A80S |
Across structure? #8 | N (within 3km) |
Seismic profile ID (IGME) #8 | 5523 |
Seismic profile code #8 | 8425 |
Seismic profile name #8 | SP-58 |
Seismic survey year #8 | 1980 |
Data repository #8 | SIGEOF Data Catalogue (Private access section). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #8 | 18.91 |
Seismic survey name #9 | 10D1-HU |
Across structure? #9 | N (within 3km) |
Seismic profile ID (IGME) #9 | 10062 |
Seismic profile code #9 | 14635 |
Seismic profile name #9 | HU-9-2º-PROL |
Seismic survey year #9 | 1979 |
Data repository #9 | SIGEOF Data Catalogue (Private access section). ©Instituto Geológico y Minero de España (IGME). https://info.igme.es/SIGEOF/ |
Length (km) #9 | 6.94 |
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UNIQUE_ID | 70 |
X Centroid (Structure shape) | 0.232760 |
Y Centroid (Structure shape) | 0.232760 |
Xmin (Structure shape) | 0.215666 |
Xmax (Structure shape) | 0.246869 |
Ymin (Structure shape) | 42.051416 |
Ymax (Structure shape) | 42.074667 |
Xmin seismic line #1 | 0.053040 |
Xmax seismic line #1 | 0.220501 |
Ymin seismic line #1 | 42.011332 |
Ymax seismic line #1 | 42.090506 |
Xmin seismic line #2 | 0.092907 |
Xmax seismic line #2 | 0.230227 |
Ymin seismic line #2 | 41.995540 |
Ymax seismic line #2 | 42.084208 |
Xmin seismic line #3 | -0.262624 |
Xmax seismic line #3 | 0.215967 |
Ymin seismic line #3 | 42.052020 |
Ymax seismic line #3 | 42.229363 |
Xmin seismic line #4 | 0.135383 |
Xmax seismic line #4 | 0.195862 |
Ymin seismic line #4 | 42.030340 |
Ymax seismic line #4 | 42.134020 |
Xmin seismic line #5 | 0.166239 |
Xmax seismic line #5 | 0.264713 |
Ymin seismic line #5 | 42.008091 |
Ymax seismic line #5 | 42.136865 |
Xmin seismic line #6 | 0.170011 |
Xmax seismic line #6 | 0.286791 |
Ymin seismic line #6 | 42.006245 |
Ymax seismic line #6 | 42.157415 |
Xmin seismic line #7 | 0.170011 |
Xmax seismic line #7 | 0.286791 |
Ymin seismic line #7 | 42.006245 |
Ymax seismic line #7 | 42.157415 |
Xmin seismic line #8 | 0.172456 |
Xmax seismic line #8 | 0.285402 |
Ymin seismic line #8 | 42.013993 |
Ymax seismic line #8 | 42.156278 |
Xmin seismic line #9 | 0.126511 |
Xmax seismic line #9 | 0.205324 |
Ymin seismic line #9 | 42.087069 |
Ymax seismic line #9 | 42.108138 |
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Y borehole #10 | |
X borehole #11 | |
Y borehole #11 | |
X borehole #12 | |
Y borehole #12 | |
X borehole #13 | |
Y borehole #13 | |
X borehole #14 | |
Y borehole #14 | |
X borehole #15 | |
Y borehole #15 |