Evidence from the Kyrenia Range, Cyprus, of the northerly active margin of the Southern Neotethys during Late Cretaceous–Early Cenozoic time

Sedimentary geology and planktonic foraminiferal biostratigraphy have shed light on the geological development of the northern, active continental margin of the Southern Neotethys in the Kyrenia Range. Following regional Triassic rifting, a carbonate platform developed during Jurassic–Cretaceous tim...

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Bibliographic Details
Published in:Geological magazine 2012-03, Vol.149 (2), p.264-290
Main Authors: ROBERTSON, ALASTAIR H. F., TASLI, KEMAL, İNAN, NURDAN
Format: Article
Language:English
Subjects:
active margins
Asia
basalts
basin analysis
biostratigraphy
carbonate rocks
Carbonates
Cenozoic
clastic rocks
Continental dynamics
continental margin
Continental margins
Cretaceous
Cyprus
Debris flow
depositional environment
Eocene
facies
Foraminifera
Geological time
Geology
Globigerinacea
Globotruncana
Globotruncanidae
greenschist facies
igneous rocks
Invertebrata
island arcs
Jurassic
Kyrenia Range
Lava
Lava flows
magmatism
marine environment
Mesozoic
metamorphic rocks
Metamorphism
metasedimentary rocks
microfossils
Middle East
Paleocene
paleoenvironment
Paleogene
paleogeography
pelagic sedimentation
petrology
plate tectonics
Protista
pyroclastics
Rifting
Rotaliina
rotation
Sandstone
sed rocks, sediments
sedimentary petrology
sedimentary rocks
sedimentation
sedimentology
stratigraphic units
Stratigraphy
subduction
Tertiary
Tethys
Triassic
Troodos Massif
tuff
turbidite
Upper Cretaceous
Volcanic rocks
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Summary:Sedimentary geology and planktonic foraminiferal biostratigraphy have shed light on the geological development of the northern, active continental margin of the Southern Neotethys in the Kyrenia Range. Following regional Triassic rifting, a carbonate platform developed during Jurassic–Cretaceous time, followed by its regional burial, deformation and greenschist-facies metamorphism. The platform was exhumed by Late Maastrichtian time and unconformably overlain by locally derived carbonate breccias, passing upwards into Upper Maastrichtian pelagic carbonates. In places, the pelagic carbonates are interbedded with sandstone turbidites derived from mixed continental, basic volcanic, neritic carbonate and pelagic lithologies. In addition, two contrasting volcanogenic sequences are exposed in the western-central Kyrenia Range, separated by a low-angle tectonic contact. The first is a thickening-upward sequence of Campanian–Lower Maastrichtian(?) pelagic carbonates, silicic tuffs, silicic lava debris flows and thick-bedded to massive rhyolitic lava flows. The second sequence comprises two intervals of basaltic extrusive rocks interbedded with pelagic carbonates. The basaltic rocks unconformably overlie the metamorphosed carbonate platform whereas no base to the silicic volcanic rocks is exposed. Additional basaltic lavas are exposed throughout the Kyrenia Range where they are dated as Late Maastrichtian and Late Paleocene–Middle Eocene in age. In our proposed tectonic model, related to northward subduction of the Southern Neotethys, the Kyrenia platform was thrust beneath a larger Tauride microcontinental unit to the north and then was rapidly exhumed prior to Late Maastrichtian time. Pelagic carbonates and sandstone turbidites of mixed, largely continental provenance then accumulated along a deeply submerged continental borderland during Late Maastrichtian time. The silicic and basaltic volcanogenic rocks erupted in adjacent areas and were later tectonically juxtaposed. The Campanian–Early Maastrichtian(?) silicic volcanism reflects continental margin-type arc magmatism. In contrast, the Upper Maastrichtian and Paleocene–Middle Eocene basaltic volcanic rocks erupted in an extensional (or transtensional) setting likely to relate to the anticlockwise rotation of the Troodos microplate.
ISSN:0016-7568
1469-5081
DOI:10.1017/S0016756811000677