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![Generalized stratigraphic section of the Thrace Basin in northwest Türkiye illustrating the depositional environments, lithologies, formation thicknesses, reservoir properties, and geochemical analysis of source rocks. The formations studied in this paper are shown in red (modified from Siyako and Huvaz, 2007).]()
![Palaeogeographic cross-sections of the Çatalca gap and the Thrace Basin during late Eocene – middle Oligocene time. The section approximately follows the line of cross-section in Figure 2. (a) During late Eocene time, shallow-marine carbonate deposition characterizes the whole region except the Çatalca gap where pelagic marls are deposited. The Çakıl Fault becomes active at the end of Eocene time. (b) During early Oligocene time, the Çatalca ridge becomes a prominent topographic feature as a result of activity along the Çakıl fault. It controls the sedimentation and separates the Thrace Basin from the Black Sea area. Pelagic marl deposition in the Çatalca gap extends throughout the region except along the Çatalca ridge, where marginal marine to lagoonal limestones and shales, the Pınarhisar Formation, are deposited. (c) The Çakıl Fault continues its activity later during early Oligocene time, creating accommodation space in the Thrace Basin filled by the sandstones of the Osmancık–Danışmen formations. The Çatalca gap becomes an area of non-deposition due to thrusting along the Black Sea margin.]()
![Simplified lithological logs for some of the wells in Thrace Basin west of the Çatalca ridge (Turgut & Eseller, 2000; Hoşgörmez & Yalçın, 2005). For the location of the wells see Figures 2 and 13.]()
![Generalized stratigraphy of the Thrace Basin showing the depositional environments, formation thicknesses, petrophysical properties of the reservoir rocks, type, and average percent of total organic carbon of the source rocks (modified from Huvaz et al., 2005).]()
![Map of the Thrace Basin. Red rectangle indicates the study area approximately. Map also shows geologic formations and gas and oil fields (modified from Turgut et al., 1991).]()
![Block diagram of the southwestern Thrace Basin. 1 = Late Cretaceous–Early Eocene package; 2 = Middle Eocene–Early Miocene package; 2A = allochthonous block facies of the Gaziköy Formation; 3 = Middle Miocene–Early Pliocene package; 4 = Late Pliocene–Early Pleistocene rocks.]()
![Figure 1.]()
![(a) Block diagram of the southwest Thrace Basin along lines A, B, and C (see Figure 3 for the location); (1) upper Cretaceous–lower Eocene package, (2) middle Eocene–lower Miocene package, (2A) allochthonous blocks facies of the Gaziköy Formation, (3) middle Miocene–lower Pliocene package, (4) upper Pliocene–lower Pleistocene rocks. NAF-N = northern branch of the North Anatolian fault. (b) Time-migrated seismic section along line 1 (see Figure 1 for the location) (modified from Kurt et al., 2000).]()
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Thrace Basin
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Thrace Basin
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Journal Article
The Thrace Basin and the Black Sea: the Eocene–Oligocene marine connection Available to Purchase
ARAL I. OKAY, ERCAN ÖZCAN, AYNUR HAKYEMEZ, MUZAFFER SIYAKO, GÜRSEL SUNAL, ANDREW R.C. KYLANDER-CLARK
Journal: Geological Magazine
Publisher: Cambridge University Press
Published: 18 September 2017
Geological Magazine (2019) 156 (1): 39–61.
...ARAL I. OKAY; ERCAN ÖZCAN; AYNUR HAKYEMEZ; MUZAFFER SIYAKO; GÜRSEL SUNAL; ANDREW R.C. KYLANDER-CLARK Abstract The Late Cretaceous – Recent West Black Sea Basin and the Eocene–Oligocene Thrace Basin are separated by the Strandja arch comprising metamorphic and magmatic rocks. Since Late Cretaceous...
Journal Article
Cross-equalization and prestack seismic inversion of time-lapse land seismic data, Central Thrace Basin, Turkey Available to Purchase
Journal: The Leading Edge
Publisher: Society of Exploration Geophysicists
Published: 01 July 2017
The Leading Edge (2017) 36 (7): 588–597.
...Sait Baytok; Burcu Selek; Hüseyin Özdemir Abstract The Thrace Basin of Turkey has sandstone and carbonate reservoirs of Eocene and Oligocene age. Mapping undrained sweet spots from seismic data is currently a challenge, especially because there is no water drive after production. Time-lapse (4D...
Journal Article
Amplitude variation with offset analysis of time-lapse land seismic data in a gas field, Thrace Basin, Turkey Available to Purchase
Journal: Interpretation
Publisher: Society of Exploration Geophysicists
Published: 23 September 2016
Interpretation (2016) 4 (4): T543–T556.
...Sait Baytok; Şeref Arzu Aktepe; Muhlis Ünaldi Abstract The Thrace Basin that is located in northwestern Turkey contains sandstone and carbonate reservoirs of Eocene and Oligocene age. Production and exploration activities are still underway. Mapping undrained sweet spots from seismic data...
Journal Article
Nature, Genesis, and Significance of the Gaziköy and Kesan Formations (Thrace Basin, Turkey): Eocene Turbidites and Olistostromes Formed on an Active Tethyan Margin Available to Purchase
Journal: The Journal of Geology
Publisher: The University of Chicago Press
Published: 01 July 2016
The Journal of Geology (2016) 124 (4): 463–479.
...Şamil Şen; Selin Yıllar Abstract Sediments of the Gaziköy and Keşan Formations (Middle-Upper Eocene) exposed in the southwestern sector of the Thrace Basin of northwestern Turkey yield evidence of activity of two main depositional systems: a slope apron and a submarine fan. The deposits attributed...
Journal Article
Petrological, Geochemical, and Statistical Analysis of Eocene–Oligocene Sandstones of the Western Thrace Basin, Greece and Bulgaria Available to Purchase
Luca Caracciolo, Hilmar Von Eynatten, Raimon Tolosana-Delgado, Salvatore Critelli, Piero Manetti, Peter Marchev
Journal: Journal of Sedimentary Research
Publisher: SEPM Society for Sedimentary Geology
Published: 01 July 2012
Journal of Sedimentary Research (2012) 82 (7): 482–498.
.... Through a multidisciplinary approach, including sandstone petrology and geochemistry of the clastic and volcanoclastic sediments, we reconstruct the unroofing history of the Rhodopian orogen and characterize the formation and the evolution of the western portions of the Thrace basin, in Greece...
Journal Article
The Korudağ anticlinorium in the south Thrace Basin, northwest Turkey: A super giant petroleum trap complex? Available to Purchase
Journal: AAPG Bulletin
Publisher: American Association of Petroleum Geologists
Published: 01 March 2009
AAPG Bulletin (2009) 93 (3): 357–377.
...Şamil Şen; Selin Yıllar Abstract The sedimentary sequence of the south Thrace Basin (northwest Turkey) comprises Upper Cretaceous–Holocene sediments. In this basin, the Korudağ anticlinorium, which is the subject of this study, is located between the Aegean Sea in the west and the Sea of Marmara...
Journal Article
Nature of a regional dogleg pattern in maturity profiles from Thrace basin, northwestern Turkey: A newly discovered unconformity or a thermal anomaly? Available to Purchase
Journal: AAPG Bulletin
Publisher: American Association of Petroleum Geologists
Published: 01 October 2005
AAPG Bulletin (2005) 89 (10): 1373–1396.
...Ozkan Huvaz; Hasan Sarikaya; Ömür M. Nohut Abstract Vitrinite reflectance (%R o ) profiles of the Thrace basin are characterized by a regional dogleg pattern corresponding to the depths of Ceylan and Hamitabat formations. We investigated the nature of this dogleg pattern using a one-dimensional...
Book Chapter
Reservoir modelling of the Hamitabat Field, Thrace Basin, Turkey: an example of a sand-rich turbidite system Available to Purchase
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2004
DOI: 10.1144/GSL.SP.2004.222.01.16
EISBN: 9781862394704
... Abstract The inter-montane, fault bounded Thrace Basin of northwestern Turkey is one of the largest Tertiary sedimentary basins in Turkey. Tertiary sedimentation within the basin comprises interbedded fine- to coarse-grained clastics from a variety of depositional environments, muddy carbonates...
Abstract The inter-montane, fault bounded Thrace Basin of northwestern Turkey is one of the largest Tertiary sedimentary basins in Turkey. Tertiary sedimentation within the basin comprises interbedded fine- to coarse-grained clastics from a variety of depositional environments, muddy carbonates with local reef developments, and tuff horizons. A thick pile of Quaternary alluvial deposits overlies this marine-dominated succession. Accommodation space, and hence sedimentation, has been influenced by the structural history of the basin, reflecting the active compressional setting adjacent to the North Anatolian Fault System. The Hamitabat Field, located towards the northern basin margin, is the largest developed gas field in the Thrace Basin. The trapping mechanism is by an anticlinal structure bounded to the north by a northwest-southeast striking reverse fault and to the south by a set of antithetic normal faults with a general east-west strike orientation. The main reservoir is the middle to upper Eocene Hamitabat Formation, comprising sandstones deposited by episodic gravity flow events in a shallow marine shelf to slope environment, with sediment sourced from fluvial/deltaic systems to the north and northeast. Correlation, based mainly on upward-fining cyclical successions, indicates lobate depositional geometries and topographic control on sediment dispersal (compensation). Progradational shallow marine sandstones, which infill earlier topography, overlie the turbidite succession. A three-dimensional geocellular reservoir model of the field, based on well and seismic data, has been constructed. The model has been subdivided on the basis of the stratigraphical correlation and populated with facies objects with dimensions based on analogue data. These facies have then been populated with petrophysical parameters. The model has been upscaled and simulated fluid flow through the modelled volume has been compared with the production history. This history matching provides an opportunity to assess and refine the model and to determine a strategy for future field development.
Journal Article
Possible Strand of the North Anatolian Fault in the Thrace Basin, Turkey—An Interpretation Available to Purchase
Journal: AAPG Bulletin
Publisher: American Association of Petroleum Geologists
Published: 01 February 1991
AAPG Bulletin (1991) 75 (2): 241–257.
..., Lüleburgaz, and Babaeski fault zones, which extend for about 130 km through the Thrace basin. The Thrace fault zone probably connected to the southeast with the presently active northern strand of the North Anatolian fault in the Marmara Sea. To the northwest, the zone may have extended to the Plovdiv graben...
Journal Article
Organic Matter Types and Depositional Environments in Thrace Basin, Turkey: ABSTRACT Free
Journal: AAPG Bulletin
Publisher: American Association of Petroleum Geologists
Published: 01 May 1982
AAPG Bulletin (1982) 66 (5): 567–568.
...Erkmen Ugur; Bulent Harput The distribution of organic matter in the Eocene-Oligocene sequence of the Thrace basin, Turkey, may be used to help identify depositional cycles and environments. Four types of organic matter (amorphous, herbaceous, woody, coaly) were microscopically recognized...
Journal Article
Geochemical characteristics of the alteration of volcanic and volcaniclastic rocks in the Feres Basin, Thrace, NE Greece Available to Purchase
Journal: Clay Minerals
Published: 01 December 2008
Clay Minerals (2008) 43 (4): 575–595.
... a common origin as do the Nipsa and Makrylofos volcaniclastics. The acidic volcaniclastics and rhyolites have probably also been derived from the same parent source. In the sedimentary basins of Thrace, at the Upper Eocene–Oligocene boundary, extensive volcanic activity yielded abundant dacitic...
Journal Article
Zeolitic alteration in the Tertiary Feres volcano-sedimentary basin, Thrace, NE Greece Available to Purchase
Journal: Mineralogical Magazine
Published: 01 June 2007
Mineralogical Magazine (2007) 71 (3): 327–345.
...I. Marantos; T. Markopoulos; G. E. Christidis Abstract The Tertiary volcano-sedimentary sequence of the Feres basin (Thrace, NE Greece), includes lavas of andesitic–rhyolitic composition as well as volcaniclastic rocks, pyroclastic flows and pyroclastic fall deposits principally of dacitic...
Image
Generalized stratigraphic section of the Thrace Basin in northwest Türkiye ... Available to Purchase
in Rock-physics-guided convolutional neural network for elastic impedance inversion in onshore clastic reservoirs
> Interpretation
Published: 09 May 2025
Figure 1. Generalized stratigraphic section of the Thrace Basin in northwest Türkiye illustrating the depositional environments, lithologies, formation thicknesses, reservoir properties, and geochemical analysis of source rocks. The formations studied in this paper are shown in red (modified from
Image
Palaeogeographic cross-sections of the Çatalca gap and the Thrace Basin dur... Available to Purchase
Published: 18 September 2017
Figure 8. Palaeogeographic cross-sections of the Çatalca gap and the Thrace Basin during late Eocene – middle Oligocene time. The section approximately follows the line of cross-section in Figure 2 . (a) During late Eocene time, shallow-marine carbonate deposition characterizes the whole region
Image
Simplified lithological logs for some of the wells in Thrace Basin west of ... Available to Purchase
Published: 18 September 2017
Figure 15. Simplified lithological logs for some of the wells in Thrace Basin west of the Çatalca ridge (Turgut & Eseller, 2000 ; Hoşgörmez & Yalçın, 2005 ). For the location of the wells see Figures 2 and 13 .
Image
Generalized stratigraphy of the Thrace Basin showing the depositional envir... Available to Purchase
in Amplitude variation with offset analysis of time-lapse land seismic data in a gas field, Thrace Basin, Turkey
> Interpretation
Published: 23 September 2016
Figure 2. Generalized stratigraphy of the Thrace Basin showing the depositional environments, formation thicknesses, petrophysical properties of the reservoir rocks, type, and average percent of total organic carbon of the source rocks (modified from Huvaz et al., 2005 ).
Image
Map of the Thrace Basin. Red rectangle indicates the study area approximate... Available to Purchase
in Amplitude variation with offset analysis of time-lapse land seismic data in a gas field, Thrace Basin, Turkey
> Interpretation
Published: 23 September 2016
Figure 1. Map of the Thrace Basin. Red rectangle indicates the study area approximately. Map also shows geologic formations and gas and oil fields (modified from Turgut et al., 1991 ).
Image
Block diagram of the southwestern Thrace Basin. 1 = Late Cretaceous–Early E... Available to Purchase
in Nature, Genesis, and Significance of the Gaziköy and Kesan Formations (Thrace Basin, Turkey): Eocene Turbidites and Olistostromes Formed on an Active Tethyan Margin
> The Journal of Geology
Published: 01 July 2016
Figure 14. Block diagram of the southwestern Thrace Basin. 1 = Late Cretaceous–Early Eocene package; 2 = Middle Eocene–Early Miocene package; 2A = allochthonous block facies of the Gaziköy Formation; 3 = Middle Miocene–Early Pliocene package; 4 = Late Pliocene–Early Pleistocene rocks.
Image
Main tectonic domains of NW Turkey: Thrace Basin (light grey), Strandja Mas... Available to Purchase
in Eocene–Oligocene stratigraphy and structural history of the Karaburun area, southwestern Black Sea coast, Turkey: transition from extension to compression
> Geological Magazine
Published: 03 June 2015
Figure 1. Main tectonic domains of NW Turkey: Thrace Basin (light grey), Strandja Massif (dark
grey) and İstanbul Zone (grey). Heavy short dashed lines show the approximate position
of the West Black Sea Fault. Heavy long dashed lines indicate Late Miocene fault
Image
(a) Block diagram of the southwest Thrace Basin along lines A, B, and C (se... Available to Purchase
in The Korudağ anticlinorium in the south Thrace Basin, northwest Turkey: A super giant petroleum trap complex?
> AAPG Bulletin
Published: 01 March 2009
Figure 4 (a) Block diagram of the southwest Thrace Basin along lines A, B, and C (see Figure 3 for the location); (1) upper Cretaceous–lower Eocene package, (2) middle Eocene–lower Miocene package, (2A) allochthonous blocks facies of the Gaziköy Formation, (3) middle Miocene–lower Pliocene
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