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Landete-Moya

ID #087
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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 Teruel (ID #75), Villel (ID #074) and Landete-Moya diapirs uplift triggered by extensional tectonics along the Teruel graben during the Miocene. Karst dissolution processes active from Pliocene-Holocene.

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 87
Name Landete-Moya
Structure type Evaporite diapir
Deformed/Undeformed Deformed
Buried/Outcropping Outcropping
Geological setting Iberian Range
Geological Regional Setting Teruel-Jiloca Graben
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 Marlstone-Gypsum-Shale
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) Ductile piercement
Classification (Jackson and Talbot, 1986) Salt pillow
Mining activity? N
Mining activity start
Mining activity end
Mining galleries?
Mining products
Mining sub-products
Evaporite flow? Y
Age of evaporite flow Miocene
Flow or deformation triggering mechanisms Neogene extension, erosion and differential loading
Flow-linked structures? Y
Halokinetic structures Normal faults / anticline-syncline folding
Post-evaporite and pre-kinematic unit/s (overbuden) Lower-Middle Jurassic (dolomitic brecchias, limestones and marls) ; Upper Jurassic (marls and limestones) ; Lower Cretaceous (sandstones and limestones) ; Upper Cretaceous (dolostones, dolomitic limestones and dolomitic brecchias)
Syn-kinematic unit/s Miocene (conglomerates, red siltstones, sandstones, limestones and marlstones)
Available seismic profiles ILIHA D-F
Available boreholes
Additional comments Teruel, Villel and Landete diapirs uplift triggered by extensional tectonics along the Teruel graben during the Miocene. Karst dissolution processes active from Pliocene-Holocene.

Mining Data

UNIQUE_ID 87
Minning exploitations within <2km? N
Historical/Active
Exploitation name #1
Exploitation ID (Spanish National Mining Cadastre) #1
Municipality #1
Province #1
Company #1
Main minning Products #1
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 87
Outcropping area (km2) 14.26331
Horizontal intersection area (km2) (when buried) Not buried
Depth of intersection area (km2) (when buried) Not buried
Max. Width (Km) 12.0034804
Max. Length (Km) 4.49360297
Max. Evaporites thickness (km)
Max. Deformation age (Ma) 23
Min. Deformation age (Ma) 7
Deformation stages 1

Reference Data

UNIQUE_ID 87
Section source IGME MAGNA 50. SHEET 637 (LANDETE)
Well / Borehole availability #1 n.a.
Well / Borehole availability #2 n.a.
Available data (Stratigraphy) #1 Escudero-Mozo, M. J., Márquez-Aliaga, A., Goy, A., Martín-Chivelet, J., López-Gómez, J., Márquez, L., …, Sánchez-Fernández, D., 2015. Middle Triassic carbonate platforms in eastern Iberia: Evolution of their fauna and palaeogeographic significance in the western Tethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 417, 236-260. [link]
Available data (Stratigraphy) #2 Benito, M. I., De la Horra, R., López-Gómez, J., Barrenechea, J. F., Luque, J., Arche, A., 2011. Shallow burial dolomitisation of Middle–Upper Permian paleosols in an extensional tectonic context (SE Iberian Basin, Spain): Controls on temperature of precipitation and source of fluids. Sedimentary Geology, 237(3-4), 135-149. [link]
Available data (Stratigraphy) #3 Aurell, M., Fregenal-Martínez, M., Bádenas, B., Muñoz-García, M. B., Élez, J., Meléndez, N., De Santisteban, C., 2019. Middle Jurassic–Early Cretaceous tectono-sedimentary evolution of the southwestern Iberian Basin (central Spain): Major palaeogeographical changes in the geotectonic framework of the Western Tethys. Earth-Science Reviews, 199, 102983. [link]
Available data (Stratigraphy) #4 Fregenal-Martínez, M., Nieves Meléndez, N., Muñoz-García, M. B., Elez, J., Horra, R. D. L., 2017. The stratigraphic record of the Late Jurassic-Early Cretaceous rifting in the Alto Tajo-Serranía de Cuenca region (Iberian Ranges, Spain). Revista de la Sociedad Geológica de España, 30(1), 113-142. [link]
Available data (Stratigraphy) #5 López-Gómez, J., Alonso-Azcárate, J., Arche, A., Arribas, J., Barrenechea, J. F., Borruel-Abadía, V., … Díez, J. B., 2019. Permian-Triassic Rifting Stage. In (Quesada C., Oliveira J., eds.): The Geology of Iberia: A Geodynamic Approach, p29-112. Regional Geology Reviews. Springer, Cham. [link]
Available data (Stratigraphy) #6 Vargas, H., Gaspar-Escribano, J. M., López-Gómez, J., Van Wees, J. D., Cloetingh, S., de La Horra, R., Arche, A., 2009. A comparison of the Iberian and Ebro Basins during the Permian and Triassic, eastern Spain: A quantitative subsidence modelling approach. Tectonophysics, 474(1-2), 160-183. [link]
Regional Stratigraphy Ezquerro, L., Lafuente, P., Pesquero, M. D., Alcalá, L., Arlegui, L., Liesa, C., Luque, L., Rodriguez-Pascua, M., Simón, J.L., 2012. Una cubeta endorreica residual Plio-Pleistocena en la zona de relevo entre las fallas de Concud y Teruel: implicaciones paleogeográficas. Revista de la Sociedad Geológica de España, 25, 157-175. [link]
Seismic data availability #1 n.a.
Seismic data availability #2 n.a.
Seismic data availability #3 n.a.
Available data (Structure) #1 Gracia, A. C., Sainz, A. C., 2000. ¿Tiene el sistema de fosas de Teruel origen extensional?. Revista de la Sociedad Geológica de España, 13(3–4), 445-470. [link]
Available data (Structure) #2 Moissenet, E., 1985. Les dépressions tarditectoniques des Chaînes Ibériques méridionales: Distension, diapirisme et dépôts neogènes associés. Comptes-rendus des séances de l’Académie des sciences. Série 2, Mécanique-physique, chimie, sciences de l’univers, sciences de la terre, 300(11), 523-528. [link]
Available data (Structure) #3 Vargas, H., Gaspar-Escribano, J. M., López-Gómez, J., Van Wees, J. D., Cloetingh, S., de La Horra, R., Arche, A., 2009. A comparison of the Iberian and Ebro Basins during the Permian and Triassic, eastern Spain: A quantitative subsidence modelling approach. Tectonophysics, 474(1-2), 160-183. [link]
Available data (Structure) #4 Escudero-Mozo, M. J., Márquez-Aliaga, A., Goy, A., Martín-Chivelet, J., López-Gómez, J., Márquez, L., …, Sánchez-Fernández, D., 2015. Middle Triassic carbonate platforms in eastern Iberia: Evolution of their fauna and palaeogeographic significance in the western Tethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 417, 236-260. [link]
Available data (Structure) #5 Liesa, C. L., Simón, J. L., Casas, A. M., 2018. La tectónica de inversión en una región intraplaca: La Cordillera Ibérica. Revista de la Sociedad Geológica de España, 31(2), 23-50. [link]
Available data (Structure) #6 n.a.
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 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
Available data (Gravimetry – Tomography) #3
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 n.a.
Available data (Geochemistry) #3 n.a.
Available data (Geochemistry) #4 n.a.
Available data (Petrophysics) #1 n.a.
Available data (Petrophysics) #2 n.a.
IGME Geological Map (MAGNA50) Sheet number 637-Landete. [link]
Other Maps #1 (source) Ezquerro, L., Luzón, A., Simón, J. L., Liesa, C. L., 2019. Alluvial sedimentation and tectono-stratigraphic evolution in a narrow extensional zigzag basin margin (northern Teruel Basin, Spain). Journal of Palaeogeography, 8(1), 1-25. [link]
Other Maps #2 (source) Gracia, A. C., Sainz, A. C., 2000. ¿ Tiene el sistema de fosas de Teruel origen extensional?. Revista de la Sociedad Geológica de España, 13(3–4), 445-470. [link]
Other related references #1 Abels, H. A., Aziz, H. A., Ventra, D., Hilgen, F. J., 2009. Orbital climate forcing in mudflat to marginal lacustrine deposits in the Miocene Teruel Basin (Northeast Spain). Journal of Sedimentary Research, 79(11), 831-847. [link]
Other related references #2 Alonso-Zarza, A. M., Calvo, J. P., 2000. Palustrine sedimentation in an episodically subsiding basin: the Miocene of the northern Teruel Graben (Spain). Palaeogeography, Palaeoclimatology, Palaeoecology, 160(1-2), 1-21. [link]
Other related references #3 Gómez, J. L. S., Monné, J. L. P., Fabre, M. S., 1981. Algunos aspectos de la tectónica cuaternaria en el margen oriental de la fosa de Alfambra-Teruel. Teruel: Revista del Instituto de Estudios Turolenses, (66), 31-46. [link]
Other related references #4 Fabre, M. S., 1991. Consideraciones sobre la geomorfología de la depresión de Alfambra-Teruel-Landete y sus rebordes montañosos (provincias de Teruel, Valencia y Cuenca). Studium. Geografía, historia, arte, filosofia, (3), 47-70. [link]