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Polientes

ID #036
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General Information

Structure type
Deformed/Undeformed
Geological Setting ,
Outcropping/buried
Evaporite unit/s name
Evaporite unit/s age
Evaporite unit/s origin
Classif. (Hudec and Jackson, 2009)
Classif. (Jackson and Talbot, 1986)
Age of evaporite flow or deformation (when deformed)
Other comments The Ayoluengo oil field is the only onshore oil discovery in Spain. To date, 17 million barrels of oil have been produced from Purbeck sandstones generated from a Lower Liassic source rock. It is located over a Late Jurassic salt anticline with approximately NE-SW axial orientation, close to the Polientes evaporite structure..

Location

Location

Map (detail)

Location
Location

Geological map

Location

Cross section

Location

Structure type (Hudec and Jackson, 2009)

Location

Regional Stratigraphy

Location

Other maps 1

Location

Other maps 2

Generic Data

Unique ID 36
Name Polientes
Structure type Evaporite-cored anticline
Deformed/Undeformed Deformed
Buried/Outcropping Buried
Geological setting Basque-Cantabrian Basin
Geological Regional Setting Burgalesa Platform
Evaporite unit/s name Keuper facies
Evaporite unit/s age Carnian-Rhaetian (Upper Triassic)
Evaporite unit/s era Mesozoic
Evaporite unit/s origin Marine
Evaporite unit/s composition Gypsum-Marlstones-Claystone-Shale
Post-kinematic unit/s (or post-evaporite units when evaporites are undeformed) Jurassic (Limestones and dolostones) ; Late Jurassic – Early Cretaceous (Purbeck facies, clays, limestones and sandstones) ; Lower-Middle Cretaceous Weald facies, limestones and sandstones) ; Aptian – Cenomanian (Urgonian-Supraurgonian, limestones and sandstones) ; Late Cretaceous (limestones)
Post-kinematic unit/s age (or post-evaporite units when evaporites are undeformed) Jurassic – Cretaceous
Classification (Hudec and Jackson, 2009) No diapirism
Classification (Jackson and Talbot, 1986) No diapirism
Mining activity? Y
Mining activity start
Mining activity end
Mining galleries?
Mining products
Mining sub-products
Evaporite flow? N
Age of evaporite flow
Flow or deformation triggering mechanisms
Flow-linked structures?
Halokinetic structures
Post-evaporite and pre-kinematic unit/s (overbuden)
Syn-kinematic unit/s
Available seismic profiles BG-83 / 14 / PR85-04 / B-20 / PR85-06 / PR85-03 / PR-22 / PR85-02 / 44212 / 44213 / PR21 / B-28 / B-25 / PR69 / PR-23 / PR27 / PR-25 / PR70 / PR-22 / PR27 / PR-23
Available boreholes COTO-1 / VILLAMOÑICO-10 / POLIENTES-2 / POLIENTES-3 / POLIENTES-1 / POLIENTES-6 / POLIENTES-5 / POLIENTES-9 / POLIENTES-4
Additional comments The Ayoluengo oil field is the only onshore oil discovery in Spain. To date, 17 million barrels of oil have been produced from Purbeck sandstones generated from a Lower Liassic source rock. It is located over a Late Jurassic salt anticline with approximately NE-SW axial orientation.

Mining Data

UNIQUE_ID 36
Minning exploitations within <2km? Y
Historical/Active Historical (not indexed in the Spanish National Minning Cadastre)
Exploitation name #1 n.a.
Exploitation ID (Spanish National Mining Cadastre) #1 n.a.
Municipality #1 n.a.
Province #1 n.a.
Company #1 n.a.
Main minning Products #1 n.a.
Exploitation name #2
Exploitation ID (Spanish National Mining Cadastre) #2
Municipality #2
Province #2
Company #2
Main minning Products #2
Exploitation name #3
Exploitation ID (Spanish National Mining Cadastre) #3
Municipality #3
Province #3
Company #3
Main minning Products #3

Quantitative Data

UNIQUE_ID 36
Outcropping area (km2) Buried
Horizontal intersection area (km2) (when buried) 31.61593
Depth of intersection area (km2) (when buried) 2.1
Max. Width (Km) 10.2
Max. Length (Km) 4.3
Max. Evaporites thickness (km) 0.4
Max. Deformation age (Ma)
Min. Deformation age (Ma)
Deformation stages 0

Reference Data

UNIQUE_ID 36
Section source Cámara, P., 2017. Salt and Strike-Slip Tectonics as Main Drivers in the Structural Evolution of the Basque-Cantabrian Basin, Spain. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 371-393). Elsevier. [link]
Well / Borehole availability #1 Carola, E., Muñoz, J. A., Roca, E., 2015. The transition from thick-skinned to thin-skinned tectonics in the Basque-Cantabrian Pyrenees: The Burgalesa Platform and surroundings. International Journal of Earth Sciences, 104(8), 2215-2239. [link]
Well / Borehole availability #2 Cámara, P., 2017. Salt and Strike-Slip Tectonics as Main Drivers in the Structural Evolution of the Basque-Cantabrian Basin, Spain. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 371-393). Elsevier. [link]
Available data (Stratigraphy) #1 Cámara, P., 2017. Salt and Strike-Slip Tectonics as Main Drivers in the Structural Evolution of the Basque-Cantabrian Basin, Spain. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 371-393). Elsevier. [link]
Available data (Stratigraphy) #2 Beroiz, C., Permanyer, A., 2011. Hydrocarbon habitat of the Sedano Trough, Basque‐Cantabrian Basin, Spain. Journal of Petroleum Geology, 34(4), 387-409. [link]
Available data (Stratigraphy) #3 Martín-Chivelet, J., López-Gómez, J., Aguado, R., Arias, C., Arribas, J., Arribas, M. E., … , Casas-Sainz, A., 2019. The Late Jurassic–Early Cretaceous Rifting. In (Quesada C., Oliveira J., eds.): The Geology of Iberia: A Geodynamic Approach. Regional Geology Reviews. Springer, Cham. [link]
Available data (Stratigraphy) #4 Espina, R. G., 1997. La estructura y evolución tectonoestatigráfica del borde occidental de la Cuenca Vasco-Cantábrica (Cordillera Cantábrica, NO de España) [Ph.D. thesis]: Univeridad de Oviedo: 230 p. [link]
Available data (Stratigraphy) #5 Carola, E., Muñoz, J. A., Roca, E., 2015. The transition from thick-skinned to thin-skinned tectonics in the Basque-Cantabrian Pyrenees: The Burgalesa Platform and surroundings. International Journal of Earth Sciences, 104(8), 2215-2239. [link]
Available data (Stratigraphy) #6 Peropadre, C., Mediato, J. F., Hernaiz, P. P., Robador, A., Solé, F. X., Sarrionandía, F., 2012. La discordancia de La Mesa (base de las Facies Utrillas) en el sinclinal de Polientes (Cretácico, Cuenca Vasco-Cantábrica): implicaciones tectónicas. Geotemas, 13, 85. [link]
Regional Stratigraphy Pedrera, A., García‐Senz, J., Ayala, C., Ruiz‐Constán, A., Rodríguez‐Fernández, L. R., Robador, A., González Menéndez, L., 2017. Reconstruction of the exhumed mantle across the North Iberian Margin by crustal‐scale 3‐D gravity inversion and geological cross section. Tectonics, 36, 3155-3177. [link]
Seismic data availability #1 Carola, E., Muñoz, J. A., Roca, E., 2015. The transition from thick-skinned to thin-skinned tectonics in the Basque-Cantabrian Pyrenees: The Burgalesa Platform and surroundings. International Journal of Earth Sciences, 104(8), 2215-2239. [link]
Seismic data availability #2 Cámara, P., 2017. Salt and Strike-Slip Tectonics as Main Drivers in the Structural Evolution of the Basque-Cantabrian Basin, Spain. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 371-393). Elsevier. [link]
Seismic data availability #3 Soto, R., Casas-Sainz, A. M., Villalaín, J. J., 2011. Widespread Cretaceous inversion event in northern Spain: evidence from subsurface and palaeomagnetic data. Journal of the Geological Society, 168(4), 899-912. [link]
Available data (Structure) #1 Cámara, P., 2017. Salt and Strike-Slip Tectonics as Main Drivers in the Structural Evolution of the Basque-Cantabrian Basin, Spain. In Permo-Triassic Salt Provinces of Europe, North Africa and the Atlantic Margins (pp. 371-393). Elsevier. [link]
Available data (Structure) #2 Carola, E., Muñoz, J. A., Roca, E., 2015. The transition from thick-skinned to thin-skinned tectonics in the Basque-Cantabrian Pyrenees: The Burgalesa Platform and surroundings. International Journal of Earth Sciences, 104(8), 2215-2239. [link]
Available data (Structure) #3 Soto, R., Casas-Sainz, A. M., Villalaín, J. J., 2011. Widespread Cretaceous inversion event in northern Spain: evidence from subsurface and palaeomagnetic data. Journal of the Geological Society, 168(4), 899-912. [link]
Available data (Structure) #4 Pedrera, A., García‐Senz, J., Ayala, C., Ruiz‐Constán, A., Rodríguez‐Fernández, L. R., Robador, A., González Menéndez, L., 2017. Reconstruction of the exhumed mantle across the North Iberian Margin by crustal‐scale 3‐D gravity inversion and geological cross section. Tectonics, 36, 3155-3177. [link]
Available data (Structure) #5 Espina, R. G., 1997. La estructura y evolución tectonoestatigráfica del borde occidental de la Cuenca Vasco-Cantábrica (Cordillera Cantábrica, NO de España) [Ph.D. thesis]: Univeridad de Oviedo: 230 p. [link]
Available data (Structure) #6 Soto, R., Casas-Sainz, A. M., Villalaín J. J., Gil-Imaz, A., Fernandez-Gonzalez, G., Del Rio, P., Calvo, M., Mochales, T., 2008. Characterizing the Mesozoic extension direction in the northern Iberian plate margin by anisotropy of magnetic susceptibility (AMS). Journal of the Geological Society, 165(6), 1007-1018. [link]
Available data (Analogue modelling) #1 Vendeville, B. C., Jackson, M. P. A., 1992. The fall of diapirs during thin-skinned extension. Marine and Petroleum Geology, 9(4), 354-371. [link]
Available data (Analogue modelling) #2 n.a.
Available data (Analogue modelling) #3 n.a.
Available data (Gravimetry – Tomography) #1 Ayala, C., Bohoyo, F., Maestro, A., Reguera, M. I., Torne, M., Rubio, F., Fernández, M., García-Lobón, J. L., 2016. Updated Bouguer anomalies of the Iberian Peninsula: a new perspective to interpret the regional geology. Journal of Maps, 12(5), 1089-1092. [link]
Available data (Gravimetry – Tomography) #2 Nettleton, L.L., 1968. Gravity anomalies over salt diapirs, northern Spain. Geological Society of America Special Papers, 88, 75–82. [link]
Available data (Gravimetry – Tomography) #3 Pedrera, A., García‐Senz, J., Ayala, C., Ruiz‐Constán, A., Rodríguez‐Fernández, L. R., Robador, A., González Menéndez, L., 2017. Reconstruction of the exhumed mantle across the North Iberian Margin by crustal‐scale 3‐D gravity inversion and geological cross section. Tectonics, 36, 3155-3177. [link]
Available data (Geochemistry) #1 Ortí, F., García-Veigas, J., Rossell, L., Jurado, M. J., Utrilla, R., 1996. Formaciones salinas de las cuencas triásicas en la Península Ibérica: Caracterización Petrológica y Geoquímica. Cuadernos de Geología Ibérica, 20, 13-35. [link]
Available data (Geochemistry) #2 Béziat, D., Joron, J.L., Monchoux, P., Treuil, M., Walgenwitz, F., 1991. Geodynamic implications of geochemical data for the Pyrenean ophites (Spain-France). Chemical Geology, 89, 243-262. [link]
Available data (Geochemistry) #3 Iribar, V., Ábalos, B. 2011. The geochemical and isotopic record of evaporite recycling in spas and salterns of the Basque Cantabrian basin, Spain. Applied geochemistry, 26, 1315-1329. [link]
Available data (Geochemistry) #4 n.a.
Available data (Petrophysics) #1 Soto, R., Casas-Sainz, A. M., Villalaín J. J., Gil-Imaz, A., Fernandez-Gonzalez, G., Del Rio, P., Calvo, M., Mochales, T., 2008. Characterizing the Mesozoic extension direction in the northern Iberian plate margin by anisotropy of magnetic susceptibility (AMS). Journal of the Geological Society, 165(6), 1007-1018. [link]
Available data (Petrophysics) #2 Soto, R., Beamud, E., Roca, E., Carola, E., Almar, Y., 2017. Distinguishing the effect of diapir growth on magnetic fabrics of syn-diapiric overburden rocks: Basque-Cantabrian basin, Northern Spain. Terra Nova 29, 191-201. [link]
IGME Geological Map (MAGNA50) Sheet number 134-Polientes. [link]
Other Maps #1 (source) Perona, J., 2016. Mineralizaciones de Pb-Zn asociadas a los diapiros de Murguía y Orduña (Cuenca Vasco-Cantábrica) [PhD thesis]: Barcelona, Universitat de Barcelona, 281 pp. [link]
Other Maps #2 (source) Soto, R., Casas-Sainz, A. M., Villalaín, J. J., 2011. Widespread Cretaceous inversion event in northern Spain: evidence from subsurface and palaeomagnetic data. Journal of the Geological Society, 168(4), 899-912. [link]
Other related references #1 Ábalos, B., 2016. Geologic map of the Basque-Cantabrian Basin and a new tectonic interpretation of the Basque Arc. International Journal of Earth Sciences, 105, 2327-2354. [link]
Other related references #2 Martín-Chivelet, J., López-Gómez, J., Aguado, R., Arias, C., Arribas, J., Arribas, M. E., … , Casas-Sainz, A., 2019. The Late Jurassic–Early Cretaceous Rifting. In (Quesada C., Oliveira J., eds.): The Geology of Iberia: A Geodynamic Approach. Regional Geology Reviews. Springer, Cham. [link]
Other related references #3 Santos-González, J., Marcos-Reguero, A., 2019. Applying the geological heritage in land management: cartography and management proposals of geosites in Burgos Province (Spain). Geoheritage, 11(2), 485-500. [link]
Other related references #4 n.a.