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Saricakaya Granitoid

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The geochemical characteristics of the Sarıcakaya Granitoid lithologies. (A) Total alkali versus silica classification diagram (after Middlemost, 1994). (B) Al2O3/(CaO + Na2O + K2O) versus Al2O3/(Na2O + K2O) diagram for the discrimination of metaluminous and peraluminous characteristics and I-type and S-type granites (after Shand, 1943). (C) Sarıcakaya Granitoid compositions compared to experimental melts of pelite, graywacke, and amphibolite (after Patiño Douce, 1999). (D) Granite tectonic discrimination diagram (after Pearce et al., 1984). For parts A, B, and D, the granite and diorite fields are drawn with combined data from İlbeyli et al. (2015) and Othman (2016), and the data points are new data presented in this study. The data points on part C are from this study, İlbeyli et al. (2015), and Othman (2016). syn-COLG—syn-collisional granites; WPG—within-plate granites; VAG—volcanic-arc granites; ORG—ocean-ridge granites.

The geochemical characteristics of the Sarıcakaya Granitoid lithologies. (A... Available to Purchase

Published: 14 November 2024
Figure 11. The geochemical characteristics of the Sarıcakaya Granitoid lithologies. (A) Total alkali versus silica classification diagram (after Middlemost, 1994 ). (B) Al 2 O 3 /(CaO + Na 2 O + K 2 O) versus Al 2 O 3 /(Na 2 O + K 2 O) diagram for the discrimination of metaluminous
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Petrogenic characteristics of the diorites from the Sarıcakaya Granitoid. (A, B) Multi-element spider diagram schematics of two types of diorites from the Sarıcakaya Granitoid, normalized with respect to primitive mantle values from Sun and McDonough (1989). (C) Comparison of Nb/Yb versus Th/Yb elemental ratios of diorites from the Sarıcakaya Granitoid and basalts from modern tectonic settings (same data sources as in Fig. 9). (D) Comparison of U/Nb proxy of zircons from diorites of the Sarıcakaya Granitoid with modern arc environments and the mantle-zircon array (after Carley et al., 2011; Grimes et al., 2015; Barth et al., 2018). (E) Hf versus U/Yb comparison of the zircons from the diorites of the Sarıcakaya Granitoid and their affinities with modern arc environments (after Barth et al., 2018). The data points on part C are from this study, Ilbeyli et al. (2015), and Othman (2016). E-MORB—enriched mid-ocean-ridge basalt; N-MORB—normal mid-ocean-ridge basalt.

Petrogenic characteristics of the diorites from the Sarıcakaya Granitoid. (... Available to Purchase

Published: 14 November 2024
Figure 12. Petrogenic characteristics of the diorites from the Sarıcakaya Granitoid. (A, B) Multi-element spider diagram schematics of two types of diorites from the Sarıcakaya Granitoid, normalized with respect to primitive mantle values from Sun and McDonough (1989) . (C) Comparison of Nb/Yb
Journal Article

Multi-stage tectonic record of the Central Sakarya Terrane Basement (NW Turkey): Implications for the Paleozoic evolution of Rheic Ocean and northern Gondwanan margin Available to Purchase

I. Dogancan Yasar, Kaan Sayit, Brent V. Miller, Willis E. Hames, O. Ersin Koralay, Youn-Joong Jeong, M. Cemal Göncüoğlu
Journal: GSA Bulletin
Published: 14 November 2024
GSA Bulletin (2025) 137 (3-4): 1649–1669.
DOI: https://doi.org/10.1130/B37857.1
...Figure 11. The geochemical characteristics of the Sarıcakaya Granitoid lithologies. (A) Total alkali versus silica classification diagram (after Middlemost, 1994 ). (B) Al 2 O 3 /(CaO + Na 2 O + K 2 O) versus Al 2 O 3 /(Na 2 O + K 2 O) diagram for the discrimination of metaluminous...
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Concordia diagrams, ages, and rare earth element plots of zircons from diorites of the Sarıcakaya Granitoid. Chondrite values are from Sun and McDonough (1989). MSWD—mean square of weighted deviates; n—number of analyses.

Concordia diagrams, ages, and rare earth element plots of zircons from dior... Available to Purchase

Published: 14 November 2024
Figure 13. Concordia diagrams, ages, and rare earth element plots of zircons from diorites of the Sarıcakaya Granitoid. Chondrite values are from Sun and McDonough (1989) . MSWD—mean square of weighted deviates; n—number of analyses.
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(A) Partially melted and deformed sillimanite-paragneiss. (B) Orthogneiss with asymmetrically deformed K-feldspar porphyroclasts (sample SM26). (C) Fine-grained biotite-amphibolite boudins in an orthogneiss host (sample SM23). (D) Partial melting fabric on coarse-grained amphibolite (sample SM21). (E) The brittle deformation recorded in the Saricakaya Granitoid, as well as the crosscutting later stage quartzo-feldspathic veins with thicknesses varying from centimeter to meter lengths. (F) Close-up view of quartzo-feldspathic vein crosscutting diorite.

(A) Partially melted and deformed sillimanite-paragneiss. (B) Orthogneiss w... Available to Purchase

Published: 14 November 2024
(sample SM21). (E) The brittle deformation recorded in the Saricakaya Granitoid, as well as the crosscutting later stage quartzo-feldspathic veins with thicknesses varying from centimeter to meter lengths. (F) Close-up view of quartzo-feldspathic vein crosscutting diorite.
Journal Article

THE OCCURRENCE AND ORIGIN OF THE SÖĞÜT KAOLINITE DEPOSITS IN THE PALEOZOIC SARICAKAYA GRANITE-GRANODIORITE COMPLEXES AND OVERLYING NEOGENE SEDIMENTS (BILECIK, NORTHWESTERN TURKEY) Available to Purchase

Selahatti̇n Kadir, Fi̇rdevs Kart
Published: 01 June 2009
Clays and Clay Minerals (2009) 57 (3): 311–329.
DOI: https://doi.org/10.1346/CCMN.2009.0570304
... water. The basement of the study area consists of pre-Miocene metamorphic and igneous rocks ( Demirkol, 1977 ) (Figures 1 , 2 ). Metamorphic basement rocks, as well as the Saricakaya granite and granodiorite complexes, are crosscut by aplite and pegmatite dikes and quartz veins in the Söğüt...
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View PDF for article title, THE OCCURRENCE AND ORIGIN OF THE SÖĞÜT KAOLINITE DEPOSITS IN THE PALEOZOIC <span class="search-highlight">SARICAKAYA</span> GRANITE-GRANODIORITE COMPLEXES AND OVERLYING NEOGENE SEDIMENTS (BILECIK, NORTHWESTERN TURKEY)
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Journal Article

Characterization and distribution of fibrous tremolite and chrysotile minerals in the Eskişehir region of western Turkey Available to Purchase

S. Kadir, H. Erkoyun
Journal: Clay Minerals
Published: 01 September 2015
Clay Minerals (2015) 50 (4): 441–458.
DOI: https://doi.org/10.1180/claymin.2015.050.4.03
... ; Kulaksız, 1981 ; Yılmaz, 1981 ; Gözler et al ., 1996 ). These units are overlain tectonically by Upper Cretaceous ophiolitic rocks such as serpentinized harzburgites, pyroxenites, gabbros and serpentinites. These units are intruded by Palaeocene granitoid and overlain unconformably by Eocene–Pliocene...
View PDF for article title, Characterization and distribution of fibrous tremolite and chrysotile minerals in the Eskişehir region of western Turkey
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Journal Article

Middle Devonian, late Carboniferous, and Triassic magmatic flare-ups in eastern Armorica (Sakarya Zone, Turkey) as revealed by detrital zircon U-Pb-Hf isotopic data Available to Purchase

Gültekin Topuz, Osman Candan, Oscar Laurent, Ali Mohammadi, Cengiz Okuyucu, Ömer Faruk Çelik, Jia-Min Wang
Journal: GSA Bulletin
Published: 14 December 2023
GSA Bulletin (2024) 136 (7-8): 3053–3068.
DOI: https://doi.org/10.1130/B36950.1
... yielded Phanerozoic ages of 225–211 Ma and 433–428 Ma (Late Triassic and Silurian). Thus, the overwhelming majority of the zircon grains dated are compositionally similar to those from convergent margin granitoids. On the Hf-versus-Ti diagram, after Laurent et al. (2022 ; Fig. 7B ), the zircons fall...
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View PDF for article title, Middle Devonian, late Carboniferous, and Triassic magmatic flare-ups in eastern Armorica (Sakarya Zone, Turkey) as revealed by detrital zircon U-Pb-Hf isotopic data
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Journal Article

The Kaolin and Bentonite Deposit of Tamame De Sayago (Zamora, Spain): Mineralogy, Geochemistry, and Genesis Open Access

E. M. Manchado, M. Suárez, E. García-Romero
Published: 01 August 2023
Clays and Clay Minerals (2023) 71 (4): 478–495.
DOI: https://doi.org/10.1007/s42860-023-00256-2
... of the Albian Utrillas Facies in the SE of the Iberian Range (NE Iberian Peninsula) ( Bauluz et al., 2008 , 2021 ) and is related to the alteration of Variscan granitoids in the northern Iberian Massif (Galicia and Asturias) ( Clauer et al., 2015 ; Galán & Martín-Vivaldi, 1975a , 1975b ; Galán et al...
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Journal Article

Significance of the Paleocene olistostrome–turbidite belt (Abant Formation) along the Intra-Pontide Suture, northern Turkey Available to Purchase

Aral I. Okay, Demir Altıner, Ercan Özcan, Aynur Hakyemez
Published: 16 July 2024
Journal of the Geological Society (2024) 181 (5): jgs2023-191.
DOI: https://doi.org/10.1144/jgs2023-191
... the western outcrops of the Abant Formation as a Campanian to early Eocene flysch with olistostromes, and with tectonic slices of Cenomanian–Santonian pelagic limestones. Recently, Sunal et al. (2022) described a late Neoproterozoic ( c. 566 Ma) granitoid block from the Abant Formation north of Abant...
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Journal Article

DIFFERENTIATING STYLES OF ALTERATION WITHIN KAOLIN-ALUNITE HYDROTHERMAL DEPOSITS OF ÇANAKKALE, NW TURKEY Available to Purchase

Hatice Ünal Ercan, Ö. Işik Ece, Paul A. Schroeder, Zekiye Karacik
Published: 01 June 2016
Clays and Clay Minerals (2016) 64 (3): 245–274.
DOI: https://doi.org/10.1346/CCMN.2016.0640305
... Eocene granitoids in the region. Upper Miocene–Pliocene conglomerates, claystones, siltstones, and lignites unconformably overlie the Çan volcanics ( Dayal, 1984 ; Delaloye and Bingöl, 2000 ; Karacık et al ., 2008 ). Rocks in the Çan volcanic suite are classified as porphyritic andesite, basaltic...
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Subduction-accretion complex with boninitic ophiolite slices and Triassic limestone seamounts: Ankara Mélange, central Anatolia Open Access

Aral I Okay, Demir Altıner, Taniel Danelian, Gültekin Topuz, Ercan Özcan, Andrew RC Kylander-Clark
Published: 10 June 2022
Geological Magazine (2022) 159 (10): 1699–1726.
DOI: https://doi.org/10.1017/S0016756822000504
... , Métais G and Beard KC ( 2019 ) Collision chronology along the İzmir-Ankara-Erzincan suture zone: insights from the Sarıcakaya Basin western Anatolia . Tectonics 38 , 3652 –74...
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View PDF for article title, Subduction-accretion complex with boninitic ophiolite slices and Triassic limestone seamounts: Ankara Mélange, central Anatolia
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Journal Article

MINERALOGICAL AND GEOCHEMICAL CHARACTERISTICS AND GENESIS OF HYDROTHERMAL KAOLINITE DEPOSITS WITHIN NEOGENE VOLCANITES, KÜTAHYA (WESTERN ANATOLIA), TURKEY Available to Purchase

Selahattin Kadir, Hande Erman, Hülya Erkoyun
Published: 01 June 2011
Clays and Clay Minerals (2011) 59 (3): 250–276.
DOI: https://doi.org/10.1346/CCMN.2011.0590304
... of various ultrabasic rocks overlain by calcareous units, recrystallized limestone, and schist. The ophiolitic mélange is cross-cut by the Paleocene Eğrigöz granitoid. Lower Miocene volcano-sedimentary rocks are made up of conglomerates and sandstones within cataclastic facies, marl, clayey limestones...
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View PDF for article title, MINERALOGICAL AND GEOCHEMICAL CHARACTERISTICS AND GENESIS OF HYDROTHERMAL KAOLINITE DEPOSITS WITHIN NEOGENE VOLCANITES, KÜTAHYA (WESTERN ANATOLIA), TURKEY
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Journal Article

SEDIMENT-HOSTED KAOLIN DEPOSIT FROM ÇAKMAKTEPE (UŞAK, TURKEY): ITS MINERALOGY, GEOCHEMISTRY, AND GENESIS Available to Purchase

A. Yildiz, C. BaşAran
Published: 01 August 2015
Clays and Clay Minerals (2015) 63 (4): 235–261.
DOI: https://doi.org/10.1346/CCMN.2015.0630401
... and origin of the Söğüt kaolinite deposits in the Paleozoic Sarıcakaya granite-granodiorite complexes and overlying Neogene sediments (Bilecik, Northwestern Turkey) . Clays and Clay Minerals , 57 , 311 – 329 . Kadir S. Erman H. Erkoyun H. ( 2011 ) Mineralogical and geochemical...
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View PDF for article title, SEDIMENT-HOSTED KAOLIN DEPOSIT FROM ÇAKMAKTEPE (UŞAK, TURKEY): ITS MINERALOGY, GEOCHEMISTRY, AND GENESIS
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Journal Article

Large-scale, crustal-block vertical extrusion between the Hines Creek and Denali faults coeval with slip localization on the Denali fault since ca. 45 Ma, Hayes Range, Alaska, USA Open Access

Jeff A. Benowitz, Sarah M. Roeske, Sean P. Regan, Trevor S. Waldien, Julie L. Elliott, Paul B. O’Sullivan
Journal: Geosphere
Published: 07 April 2022
Geosphere (2022) 18 (3): 1030–1054.
DOI: https://doi.org/10.1130/GES02466.1
... (LA-ICP-MS) on two granitoid samples (n = 35 single grain analyses each) and one glacial outwash sample (n = 100 single grain analyses) to complement existing zircon U-Pb geochronological data sets ( Figs. 3 , S1, S2, and S3A; Tables S1 and S2 1 ) with three primary goals: (1) to constrain...
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Book Chapter

A geotraverse across northwestern Turkey: tectonic units of the Central Sakarya region and their tectonic evolution Available to Purchase

Author(s)
M. Cemal Göncüoğlu, Necatі Turhan, Kamіl Şentürk, Ahmet Özcan, Şükrü Uysal, M. Kenan Yaliniz
Book: Tectonics and Magmatism in Turkey and the Surrounding Area
Series: Geological Society, London, Special Publications
Publisher: Geological Society of London
Published: 01 January 2000
DOI: 10.1144/GSL.SP.2000.173.01.06
EISBN: 9781862394216
... ) and the Kütahya–Bolkardağ Belt (Göncüoğlu et al. 1992 ). Main tectonic units and their structural relations The study area along the Sakarya Valley between Sarıcakaya and Nallıhan includes parts of two former continental plates: the Sakarya Composite Terrane to the north and the Kütahya–Bolkardağ Belt...
Abstract
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Abstract In the Central Sakarya area of Turkey there are two main Alpine continental units, separated by a south verging ophiolitic complex which represents the root zone of the İzmir-Ankara Suture Belt. The Central Sakarya Terrane in the north includes two ‘Variscan’ tectonic units in its basement. The Söğüt Metamorphic rocks represent a Variscan ensimatic arc complex and the Tepeköy Metamorphic rocks are characteristically a forearc-trench complex. The unconformably overlying Triassic Soğukkuyu Metamorphic rocks correspond to a part of the Karakaya Formation and are interpreted as a Triassic rift basin assemblage. These units are unconformably overlain by a transgressive sequence of Liassic-Late Cretaceous age that represents the northeastward deepening carbonate platform of the Sakarya Composite Terrane. The middle tectonic unit (the Central Sakarya Ophiolitic Complex) comprises blocks and slices of dismembered ophiolites, blueschists and basic volcanic rocks with uppermost Jurassic-Lower Cretaceous radiolarite-limestone interlayers. Geochemical data from basalt blocks suggest mid-ocean ridge basalt (MORB)- and suprasubduction-type tectonic settings within the Neotethyan İzmir-Ankara Ocean. The southern tectonic unit includes basal polyphase metamorphosed clastic rocks (Sömdiken Metamorphics), intruded by felsic and basic dykes and overlain by thick-bedded marbles. This assemblage is unconformably overlain by continental clastic rocks gradually giving way to thick-bedded recrystallized limestones, cherty limestones and pelagic limestones intercalated with radiolarites, and finally by a thick high pressure-low temperature (HP-LT) metamorphic synorogenic flysch sequence. This succession is identical to the passive continental margin sequences of the Tauride Platform. It is suggested that this passive margin was subducted during the Late Cretaceous in an intraoceanic subduction zone and affected by HP-LT metamorphism. The emplacement of the allochthonous oceanic assemblages and the collision with the Central Sakarya Terrane was complete by the end of the Cretaceous.