Syntectonic alluvial fan sedimentation, southern Pyrenees

AbstractThe Aguero fanglomerate body developed in late Oligocene to early Miocene time at the northern margin of the Ebro Basin where the emergent southern Pyrenean thrust front created a topographic high. Tectonic activity in the thrust belt strongly influenced the sequences and structures within the fan deposits. The fan deposits display an initial coarsening-up sequence. Intraformational unconformities subdivide the proximal sediments into a series of wedges. These result from a continued uplift along the thrust front during the initial stages of fan development. A major intraformational unconformity marks the top of this sequence and the start of a fining-up sequence. Further tectonic activity in the thrust front is indicated by a syn-depositional synclinal fold which decreases in amplitude up sequence. Rejuvenation of fan sedimentation to form a second coarsening-up sequence reflects renewed activity in the thrust front. This second sedimentation event resulted in a plus 200 m thickness of massive conglomerates. The geographical limits of fan sedimentation can be determined because the fan deposits are lithologically distinct from the other Ebro Basin molasse in the area. The area of the drainage basin of the fan can also be estimated by consideration of the clast types present in the fan deposits. The fan and drainage basin areas are estimated to be 6 km2 and 10 km2 respectively.

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A Late Oligocene-Early Miocene rodent biozonation from the SE Ebro Basin (NE Spain): A potential mammal stage stratotype

Newsletters on Stratigraphy ◽

10.1127/nos/18/1988/81 ◽

1988 ◽

Vol 18 (2) ◽

pp. 81-97 ◽

Cited By ~ 10

Author(s):

Jorge Agustí ◽

Lluís Cabrera ◽

Pedro Anadón ◽

Segundo Arbiol

Keyword(s):

Early Miocene ◽

Late Oligocene ◽

Ebro Basin ◽

Ne Spain

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Paleogene-early miocene deformations of Bukulja-Vencac crystalline (Vardar zone, Serbia)

Geoloski anali Balkanskog poluostrva ◽

10.2298/gabp0701009m ◽

2007 ◽

pp. 9-20 ◽

Cited By ~ 5

Author(s):

Milun Marovic ◽

Ilija Djokovic ◽

Marinko Toljic ◽

Jelena Milivojevic ◽

Darko Spahic

Keyword(s):

First Generation ◽

Regional Metamorphism ◽

Early Miocene ◽

Tectonic Activity ◽

Metamorphic Rocks ◽

Second Phase ◽

Low Grade ◽

Late Oligocene ◽

Vardar Zone ◽

Third Phase

Low-grade metamorphic rocks of the crystalline of Mts. Bukulja and Vencac, which are integral parts of the Vardar Zone, are of Late Cretaceous age. From the Middle Paleogene to the beginning of the Miocene, they were subjected to three phases of intensive deformations. In the first phase, during the Middle Paleogene, these rocks were subjected to intense shortening (approximately in the E-W direction), regional metamorphism and deformations in the ductile and brittle domains, when first-generation folds with NNE-SSW striking fold hinges were formed. In the second phase, during the Late Oligocene and up to the Early Miocene, extensional unroofing and exhumation of the crystalline occurred, which was followed by intrusion of the granitoid of Bukulja and refolding of the previously formed folds in a simple brachial form of Bukulja and Vencac with an ESE-WNW striking B-axis. The third phase was expressed in the Early lowermost Miocene (before the Ottnanghian), under conditions of NE-SW compression and NW-SE tension. It was characterized by wrench-tectonic activity, particularly by dextral movements along NNW-SSE striking faults.

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Late Oligocene–Early Miocene paleosols of distal fluvial systems, Ebro Basin, Spain

Palaeogeography Palaeoclimatology Palaeoecology ◽

10.1016/j.palaeo.2006.10.016 ◽

2007 ◽

Vol 247 (3-4) ◽

pp. 220-235 ◽

Cited By ~ 41

Author(s):

J.M.M. Hamer ◽

N.D. Sheldon ◽

G.J. Nichols ◽

M.E. Collinson

Keyword(s):

Early Miocene ◽

Late Oligocene ◽

Ebro Basin ◽

Fluvial Systems

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The Late Oligocene to Early Miocene foredeep basin system evolution of the Northern Apennines (Emilia-Tuscany, Italy): review and new litho- biostratigraphic data

Italian Journal of Geosciences ◽

10.3301/ijg.2018.06 ◽

2018 ◽

Vol 137 (3) ◽

pp. 396-419 ◽

Cited By ~ 2

Author(s):

Gianluca Cornamusini Cornamusini ◽

Paolo Conti Conti ◽

Anna Maria Bambini Bambini

Keyword(s):

Northern Apennines ◽

Early Miocene ◽

Late Oligocene ◽

System Evolution ◽

Basin System

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Tectono-Sedimentary Evolution of the Cenozoic Basins in the Eastern External Betic Zone (SE Spain)

Geosciences ◽

10.3390/geosciences10100394 ◽

2020 ◽

Vol 10 (10) ◽

pp. 394

Author(s):

Manuel Martín-Martín ◽

Francesco Guerrera ◽

Mario Tramontana

Keyword(s):

Strike Slip ◽

Alluvial Fan ◽

Tectonic Activity ◽

Time Interval ◽

Se Spain ◽

The Third ◽

Sedimentary Evolution ◽

Marine Sedimentation ◽

Geodynamic Processes ◽

Early Paleocene

Four main unconformities (1–4) were recognized in the sedimentary record of the Cenozoic basins of the eastern External Betic Zone (SE, Spain). They are located at different stratigraphic levels, as follows: (1) Cretaceous-Paleogene boundary, even if this unconformity was also recorded at the early Paleocene (Murcia sector) and early Eocene (Alicante sector), (2) Eocene-Oligocene boundary, quite synchronous, in the whole considered area, (3) early Burdigalian, quite synchronous (recognized in the Murcia sector) and (4) Middle Tortonian (recognized in Murcia and Alicante sectors). These unconformities correspond to stratigraphic gaps of different temporal extensions and with different controls (tectonic or eustatic), which allowed recognizing minor sedimentary cycles in the Paleocene–Miocene time span. The Cenozoic marine sedimentation started over the oldest unconformity (i.e., the principal one), above the Mesozoic marine deposits. Paleocene-Eocene sedimentation shows numerous tectofacies (such as: turbidites, slumps, olistostromes, mega-olistostromes and pillow-beds) interpreted as related to an early, blind and deep-seated tectonic activity, acting in the more internal subdomains of the External Betic Zone as a result of the geodynamic processes related to the evolution of the westernmost branch of the Tethys. The second unconformity resulted from an Oligocene to Aquitanian sedimentary evolution in the Murcia Sector from marine realms to continental environments. This last time interval is characterized as the previous one by a gentle tectonic activity. On the other hand, the Miocene sedimentation was totally controlled by the development of superficial thrusts and/or strike-slip faults zones, both related to the regional geodynamic evolutionary framework linked to the Mediterranean opening. These strike-slip faults zones created subsidence areas (pull-apart basin-type) and affected the sedimentation lying above the third unconformity. By contrast, the subsidence areas were bounded by structural highs affected by thrusts and folds. After the third unconformity, the Burdigalian-Serravallian sedimentation occurred mainly in shallow- to deep-water marine environments (Tap Fm). During the Late Miocene, after the fourth unconformity, the activation of the strike-slip faults zones caused a shallow marine environment sedimentation in the Murcia sector and a continental (lacustrine and fluvial) deposition in the Alicante sector represented the latter, resulting in alluvial fan deposits. Furthermore, the location of these fans changed over time according to the activation of faults responsible for the tectonic rising of Triassic salt deposits, which fed the fan themselves.

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The Cenozoic Malaguide Basin from Sierra Espuña (Murcia, S Spain): An Example of Geological Heritage

Geosciences ◽

10.3390/geosciences11010034 ◽

2021 ◽

Vol 11 (1) ◽

pp. 34

Author(s):

Santiago Moliner-Aznar ◽

Manuel Martín-Martín ◽

Tomás Rodríguez-Estrella ◽

Gregorio Romero-Sánchez

Keyword(s):

Middle Eocene ◽

Geological Heritage ◽

Passive Margin ◽

Early Miocene ◽

Late Oligocene ◽

Deep Basin ◽

Sedimentary Evolution ◽

Early Oligocene ◽

Upper Oligocene ◽

Very High

The Cenozoic Malaguide Basin from Sierra Espuña (Internal Betic Zone, S Spain) due to the quality of outcropping, areal representation, and continuity in the sedimentation can be considered a key-basin. In the last 30 years, a large number of studies with very different methodological approaches have been done in the area. Models indicate an evolution from passive margin to wedge-top basin from Late Cretaceous to Early Miocene. Sedimentation changes from limestone platforms with scarce terrigenous inputs, during the Paleocene to Early Oligocene, to the deep basin with huge supplies of turbidite sandstones and conglomerates during the Late Oligocene to Early Miocene. The area now appears structured as an antiformal stack with evidence of synsedimentary tectonics. The Cenozoic tectono-sedimentary basin evolution is related to three phases: (1) flexural tectonics during most of the Paleogene times to create the basin; (2) fault and fold compartmentation of the basin with the creation of structural highs and subsiding areas related to blind-fault-propagation folds, deforming the basin from south to north during Late Oligocene to Early Aquitanian times; (3) thin-skin thrusting tectonics when the basin began to be eroded during the Late Aquitanian-Burdigalian. In recent times some works on the geological heritage of the area have been performed trying to diffuse different geological aspects of the sector to the general public. A review of the studies performed and the revisiting of the area allow proposing different key-outcrops to follow the tectono-sedimentary evolution of the Cenozoic basin from this area. Eight sites of geological interest have been selected (Cretaceous-Cenozoic boundary, Paleocene Mula Fm, Lower Eocene Espuña-Valdelaparra Fms, Middle Eocene Malvariche-Cánovas Fms, Lowermost Oligocene As Fm, Upper Oligocene-Lower Aquitanian Bosque Fm, Upper Oligocene-Aquitanian Río Pliego Fm, Burdigalian El Niño Fm) and an evaluation has been performed to obtain four parameters: the scientific value, the educational and touristic potential, and the degradation risk. The firsts three parameters obtained values above 50 being considered of “high” or “very high” interest (“very high” in most of the cases). The last parameter shows always values below 50 indicating a “moderate” or “low” risk of degradation. The obtained values allow us considering the tectono-sedimentary evolution of this basin worthy of being proposed as a geological heritage.

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Late oligocene–early miocene shortening in the Thrace Basin, northern Aegean

International Journal of Earth Sciences ◽

10.1007/s00531-021-02047-3 ◽

2021 ◽

Author(s):

Ümitcan Erbil ◽

Aral I. Okay ◽

Aynur Hakyemez

Keyword(s):

Large Scale ◽

Middle Eocene ◽

Early Miocene ◽

Fold Axis ◽

Late Oligocene ◽

The Balkans ◽

Sedimentary Sequences ◽

The North ◽

Early Oligocene ◽

Thrace Basin

AbstractLate Cenozoic was a period of large-scale extension in the Aegean. The extension is mainly recorded in the metamorphic core complexes with little data from the sedimentary sequences. The exception is the Thrace Basin in the northern Aegean, which has a continuous record of Middle Eocene to Oligocene marine sedimentation. In the Thrace Basin, the Late Oligocene–Early Miocene was characterized by north-northwest (N25°W) shortening leading to the termination of sedimentation and formation of large-scale folds. We studied the stratigraphy and structure of one of these folds, the Korudağ anticline. The Korudağ anticline has formed in the uppermost Eocene–Lower Oligocene siliciclastic turbidites with Early Oligocene (31.6 Ma zircon U–Pb age) acidic tuff beds. The turbidites are underlain by a thin sequence of Upper Eocene pelagic limestone. The Korudağ anticline is an east-northeast (N65°E) trending fault-propagation fold, 9 km wide and 22 km long and with a subhorizontal fold axis. It is asymmetric with shallowly-dipping northern and steeply-dipping southern limbs. Its geometry indicates about 1 km of shortening in a N25°W direction. The folded strata are unconformably overlain by Middle Miocene continental sandstones, which constrain the age of folding. The Korudağ anticline and other large folds in the Thrace Basin predate the inception of the North Anatolian Fault (NAF) by at least 12 myr. The Late Oligocene–Early Miocene (28–17 Ma) shortening in the Thrace Basin and elsewhere in the Balkans forms an interlude between two extensional periods, and is probably linked to changes in the subduction dynamics along the Hellenic trench.

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