scholarly journals The middle Miocene palynoflora and palaeoenvironments of Eskihisar (Yatağan basin, south-western Anatolia): a combined LM and SEM investigation

2016 ◽  
Vol 182 (1) ◽  
pp. 14-79 ◽  
Author(s):  
Johannes M. Bouchal ◽  
Reinhard Zetter ◽  
Friđgeir Grímsson ◽  
Thomas Denk
Keyword(s):  
Middle Miocene ◽  
Western Anatolia ◽  
Sem Investigation

scholarly journals The two-stage Aegean extension, from localized to distributed, a result of slab rollback acceleration

2016 ◽  
Vol 53 (11) ◽  
pp. 1142-1157 ◽  
Author(s):  
Jean-Pierre Brun ◽  
Claudio Faccenna ◽  
Frédéric Gueydan ◽  
Dimitrios Sokoutis ◽  
Mélody Philippon ◽  
...  
Keyword(s):  
Middle Miocene ◽  
Middle Eocene ◽  
Sedimentary Basins ◽  
Ductile Deformation ◽  
Metamorphic Rocks ◽  
Western Anatolia ◽  
Two Stage ◽  
The North ◽  
Slab Rollback ◽  
Slab Tearing

Back-arc extension in the Aegean, which was driven by slab rollback since 45 Ma, is described here for the first time in two stages. From Middle Eocene to Middle Miocene, deformation was localized leading to (i) the exhumation of high-pressure metamorphic rocks to crustal depths, (ii) the exhumation of high-temperature metamorphic rocks in core complexes, and (iii) the deposition of sedimentary basins. Since Middle Miocene, extension distributed over the whole Aegean domain controlled the deposition of onshore and offshore Neogene sedimentary basins. We reconstructed this two-stage evolution in 3D and four steps at Aegean scale by using available ages of metamorphic and sedimentary processes, geometry, and kinematics of ductile deformation, paleomagnetic data, and available tomographic models. The restoration model shows that the rate of trench retreat was around 0.6 cm/year during the first 30 My and then accelerated up to 3.2 cm/year during the last 15 My. The sharp transition observed in the mode of extension, localized versus distributed, in Middle Miocene correlates with the acceleration of trench retreat and is likely a consequence of the Hellenic slab tearing documented by mantle tomography. The development of large dextral northeast–southwest strike-slip faults, since Middle Miocene, is illustrated by the 450 km long fault zone, offshore from Myrthes to Ikaria and onshore from Izmir to Balikeshir, in Western Anatolia. Therefore, the interaction between the Hellenic trench retreat and the westward displacement of Anatolia started in Middle Miocene, almost 10 Ma before the propagation of the North Anatolian Fault in the North Aegean.

K-richterite–olivine–phlogopite–diopside–sanidine lamproites from the Afyon volcanic province, Turkey

2008 ◽  
Vol 145 (4) ◽  
pp. 570-585 ◽  
Author(s):  
CÜNEYT AKAL
Keyword(s):  
Middle Miocene ◽  
Primitive Mantle ◽  
Western Anatolia ◽  
Eurasian Plate ◽  
African Plate ◽  
Near Surface ◽  
Volcanic Province ◽  
Ree Patterns ◽  
Opaque Minerals ◽  
Metasomatized Mantle

AbstractMiddle Miocene volcanic activity in the Afyon volcanic province (eastern part of Western Anatolia) is characterized by multistage potassic and ultrapotassic alkaline volcanic successions. The volcanism is generally related to the northward subduction of the African plate beneath the Eurasian Plate. In Afyon, the Middle Miocene volcanic products consist of melilite leucitite, tephriphonolite, trachyte, basaltic–trachyandesite, phonolite, phonotephrite, tephriphonolite and lamproite rocks. Near-surface emplacement and relatively quiescent subaerial eruptions of lamproitic magma produced different emplacement forms such as dome/plug-shaped bodies and lava flows, showing variation in volume and texture. The mineralogical constituents of the lamproites are sanidine, olivine (77 < Mg no. < 81), phlogopite (74 < Mg no. < 78), K-richterite, clinopyroxene (74 < Mg no. < 78), with accessory apatite, calcite and opaque minerals. Afyon lamproites resemble Mediterranean-type Si-rich lamproites. Their compositional range is 50–52 wt% SiO2, 4–8 wt% MgO, and they display a typical lamproitic affinity. Chondrite-normalized REE patterns exhibit enrichment in LREE relative to HREE ((La/Yb)CN=15.3–17.0). They show extreme enrichment in LILE relative to primitive mantle values and troughs of Nb and Ti. The lamproites give a range of high initial87Sr/86Sr ratios and low143Nd/144Nd ratios. The geochemical and isotopic characteristics suggest that lamproitic magma is derived from highly metasomatized mantle. The enrichment history may include metasomatic events related to subduction, as in other active orogenic areas of the Mediterranean.

scholarly journals Chemo-Stratigraphy, Petrology and U-Pb Geochronology of Karakılıçlı Volcanic Field in NW Anatolia: Implications for Hellenic Subduction System

2020 ◽  
Author(s):  
Ali İskenderoğlu ◽  
NAMIK AYSAL
Keyword(s):  
Middle Miocene ◽  
Magma Mixing ◽  
Volcanic Field ◽  
Western Anatolia ◽  
Exact Nature ◽  
Magma Chambers ◽  
Precision Data ◽  
High Precision Data ◽  
Subduction System ◽  
Roll Back

Western Anatolia comprises a vast amount of various volcanic successions spanning from Eocene to Upper Miocene periods. These units mainly display southward younging in broad sense and display large amounts of chemical variation that spanned from basalt to rhyolite. The southward younging of magmatism and chemical variations have been largely attributed to the retreat and roll-back of the Hellenic slab and the western escape of the Anatolian microplate. However, there is still a lack of high precision data to pinpoint the exact nature of the magmatism and lithospheric tectonics. In this contribution we investigated a poorly known region along the Western Anatolia along Manisa district called Karakılı&ccedil;lı volcanic field. We investigated two different volcanic sections (Kalpakkaya and &Ccedil;amlık hill) that display the best volcano-sedimentary features in terms of geochronology and geochemistry. Samples acquired from the bottom, middle and upper portions of these sections display Early-Middle Miocene ages of 17.64&plusmn;0.20, 17.22&plusmn;0.15, 16.16&plusmn;0.17 and 16.36&plusmn;0.13, 15.79&plusmn;0.71 and 13.61&plusmn;0.20 Ma respectively. The results indicate that the volcanism in the region generated by the melting of the mantle and/or lithospheric mantle by slab retreat and roll-back of the Hellenic slab and evolved in the shallow magma chambers/mushes by fractional crystallization, magma mixing and crustal assimilation.

scholarly journals EFFECTS OF SLAB ROLLBACK ACCELERATION ON AEGEAN EXTENSION

2017 ◽  
Vol 50 (1) ◽  
pp. 5 ◽  
Author(s):  
J.-P. Brun ◽  
C. Faccenna ◽  
F. Gueydan ◽  
D. Sokoutis ◽  
M. Philippon ◽  
...  
Keyword(s):  
Middle Miocene ◽  
Middle Eocene ◽  
Sedimentary Basins ◽  
Ductile Deformation ◽  
Western Anatolia ◽  
Localized Deformation ◽  
The North ◽  
Dynamic Relationship ◽  
Slab Rollback ◽  
Slab Tearing

Aegean extension is a process driven by slab rollback that, since 45 Ma, shows a twostage evolution. From Middle Eocene to Middle Miocene it is accommodated by localized deformation leading to i) the exhumation of high-pressure metamorphic rocks from mantle to crustal depths, ii) the exhumation of high-temperature rocks in core complexes and iii) the deposition of Paleogene sedimentary basins. Since Middle Miocene, extension is distributed over the whole Aegean domain giving a widespread development of onshore and offshore Neogene sedimentary basins. We reconstructed this two-stage evolution in 3D at Aegean scale by using available ages of metamorphic and sedimentary processes, geometry and kinematics of ductile deformation, paleomagnetic data and available tomographic models. The restorationmodel shows that the rate of trench retreat was around 0.6 cm/y during the first 30 My and then accelerated up to 3.2 cm/y during the last 15 My. The sharp transition observed in the mode of extension, localized versus distributed, which occurred in Middle Miocene correlates with the acceleration of trench retreat and is more likely a consequence of the Hellenic slab tearing documented by mantle tomography. The development of large dextral NE-SW strike-slip faults during the second stage of Aegean extension, since Middle Miocene, is illustrated by the 450 Km-long fault, recently put in evidence, offshore from Myrthes to Ikaria and onshore from Izmir to Balikeshir, in western Anatolia. Therefore, the interaction between the Hellenic trench retreat and the westward displacement of Anatolia started in Middle Miocene,almost 10 Ma before the propagation of the North Anatolian Fault in the North Aegean. This raises a fundamental issue concerning the dynamic relationship between slab tearing and Anatolia displacement.

Rapid early-middle Miocene exhumation of the Kazdağ Massif (western Anatolia)

2008 ◽  
Vol 98 (8) ◽  
pp. 1935-1947 ◽  
Author(s):  
W. Cavazza ◽  
A. I. Okay ◽  
M. Zattin
Keyword(s):  
Middle Miocene ◽  
Western Anatolia

scholarly journals The tectonic evolution of Lake Eğirdir, West Turkey

Geologos ◽  
2010 ◽  
Vol 16 (4) ◽  
pp. 223-234 ◽  
Author(s):  
M. Karaman
Keyword(s):  
Fresh Water ◽  
Late Miocene ◽  
Tectonic Evolution ◽  
Middle Miocene ◽  
Lacustrine Sediments ◽  
Central Anatolia ◽  
Normal Faults ◽  
Western Anatolia ◽  
Isparta Angle ◽  
Topographic Condition

The tectonic evolution of Lake Eğirdir, West Turkey Lake Eğirdir is one of the most important fresh-water lakes of Turkey. It has a tectonics-related origin. The area formed under a roughly N-S compressional tectonic regime during the Middle Miocene. The stresses caused slip faults west and east of Isparta Angle, and the lake formed at the junction of these faults. The area subsided between normal faults, thus creating the topographic condition required for a lake. The lacustrine sediments have fundamentally different lithologies. After the Late Miocene, central Anatolia started to move westwards, but western Anatolia moved in a SW direction along the South-western Anatolian Fault, which we suggest to have a left lateral slip, which caused that the Hoyran Basin moved t7 km towards the SW and rotated 40° counterclockwise relative to Lake Eğirdir.

Sr-Nd-Pb isotopic significance of mantle source components from Central and Western Anatolia:  Melting  evidences   from peridotite and pyroxenite source  domains

2021 ◽  
Author(s):  
Biltan Kurkcuoglu ◽  
Tekin Yürür
Keyword(s):  
Isotopic Composition ◽  
Mantle Source ◽  
Middle Miocene ◽  
Central Anatolia ◽  
Western Anatolia ◽  
Basaltic Rocks ◽  
South Central ◽  
Source Component ◽  
Mantle Component ◽  
Isotopic Systematic

&lt;p&gt;Extensive magmatic activities were developed in &amp;#160;Central and Western Anatolia,&amp;#160; since middle miocene to quaternary times,&amp;#160;&amp;#160; the most primitive lavas are situated in eastern end of Central (Sivas) and also western (Kula) Anatolia, besides Kula basalts are&amp;#160; one of the most recent basaltic rocks together with&amp;#160; basalts&amp;#160; from south-central Anatolia.&amp;#160; &amp;#160;Although the magmatism is generally&amp;#160;&amp;#160; observed at several different&amp;#160; locations, the recent&amp;#160;&amp;#160; basaltic rocks in both of the regions &amp;#160;&amp;#160;seem to be derived from&amp;#160; the melting&amp;#160; of the peridotite and pyroxenite &amp;#160;source &amp;#160;domains and the latter one&amp;#160; was ignored in previous studies as source component.&lt;/p&gt;&lt;p&gt;&amp;#160;The previous studies indicate that many of the basaltic rocks from Central and Western Anatolia&amp;#160; are related with spinel-garnet transition, but typical Tb/Yb(N) (&gt;1.8; [1]) and Zn/Fe&amp;#160; &amp;#160;(separates peridotite-derived (Zn/Fe &lt;12; [2]) and pyroxenite-derived (Zn/Fe 13-20); [2] melts)&amp;#160; Co/Fe&amp;#160; ratios of the basaltic rocks from&amp;#160; several volcanic centers from Central and Western Anatolia&amp;#160; reveal that&amp;#160;&amp;#160; melting from the single&amp;#160; source component&amp;#160; are not solely capable of&amp;#160; the producing&amp;#160; basaltic &amp;#160;rocks.&amp;#160;&lt;/p&gt;&lt;p&gt;&amp;#160;Sr-Nd and Pb isotopic &amp;#160;compositions &amp;#160;clearly display the distinction &amp;#160;of samples which are&amp;#160; linked to&amp;#160; &amp;#160;&amp;#160;asthenospheric source. The lead isotopic systematic &amp;#160;shows&amp;#160; no siginificant differences&amp;#160; among the Central and Western Anatolian basalts,&amp;#160; of all the samples are above the NHRL line and close to EM II&amp;#160; mantle component, &amp;#160;Sr- Nd&amp;#160; isotopes&amp;#160; also display similar compositions as well, the majority of the samples are in and close to mantle array,&amp;#160;&amp;#160; but the &amp;#160;Sr isotopic composition &amp;#160;&amp;#160;of&amp;#160; Miocene aged &amp;#160;Gediz and Simav lavas have high radiogenic values.&amp;#160;&lt;/p&gt;&lt;p&gt;Tb/Yb(N),&amp;#160; Zn/Fe ratios&amp;#160; and &amp;#160;&amp;#160;as well as the Pb isotopic&amp;#160; compositions and REE-based melting model reveal &amp;#160;that Sivas, Erciyes Hasanda&amp;#287;, and Develida&amp;#287; samples in central Anatolia,&amp;#160; and Kula, Gediz basalt in western Anatolia&amp;#160; seem to be&amp;#160; derived from the amalgamated melting of&amp;#160; pyroxenite and peridotite sources, &amp;#160;&amp;#160;besides, &amp;#160;the sources melting is capable of &amp;#160;the producing&amp;#160; &amp;#160; &amp;#160;elemental variations in &amp;#160;basaltic rocks related with either lithospheric delamination or lithospheric&amp;#160; unstability&lt;/p&gt;&lt;ul&gt;&lt;li&gt;1.Wang et al., 2002, J.Geophys.Res.vol:107,ECV 5 1-21&lt;/li&gt; &lt;li&gt;2 .Le Roux, et al.,2011,EPSL, vol:307, 395-408&lt;/li&gt; &lt;/ul&gt;&lt;p&gt;This study is financially supported by Hacettepe University, BAB project no: FHD-2018-17283&lt;/p&gt;&lt;p&gt;&amp;#160;&lt;/p&gt;

Middle and Late Miocene Cricetidae (Rodentia, Mammalia) from Denizli Basin (Southwestern Turkey) and a New Species ofMegacricetodon

2014 ◽  
Vol 88 (3) ◽  
pp. 504-518 ◽  
Author(s):  
Hüseyin Erten ◽  
Sevket Sen ◽  
Muhittin Görmüş
Keyword(s):  
New Species ◽  
Late Miocene ◽  
Tectonic Evolution ◽  
Middle Miocene ◽  
Time Range ◽  
Western Anatolia ◽  
Geological Features ◽  
Siliciclastic Sediments ◽  
Stratigraphic Succession ◽  
A New Species

The occurrences of Cricetidae and the description of a new species,Megacricetodon yenicekentensisnew species from the Denizli terrestrial Neogene Basin are considered herein. The Miocene sediments of the area mainly include terrestrial siliciclastic sediments and have a significant mammal fauna. Fieldwork was carried out in the six localities in the basin and the following rodents were identified:Cricetodon candirensis,Cricetulodon hartenbergeri,Megacricetodon minorandMegacricetodon yenicekentensisn. sp. This is the first study of rodent faunas from the Denizli Basin, which is still poorly documented. This study contributes to a better understanding of the stratigraphic and geological features of the Denizli Basin, which is one of the grabens formed within the Neotectonic period of Western Anatolia and has a significant role in explaining the tectonic evolution of the region. Its sedimentary units are, in stratigraphic order, the Kızılburun, Sazak, Kolankaya and Ulubey formations. Based on the systematics and biochronological implications of cricetids and the bulk faunas from six localities, the time range of these formations is discussed, and an age between the early middle Miocene (MN 6) and late Miocene (MN 10) is proposed for this stratigraphic succession. In addition, the dating of the Ulubey Formation, which is observed both in the Denizli and Uşak-Selendi basins, provides new data about the time of connection between these two basins.

Sign in / Sign up

Export Citation Format

Share Document