The North-Chilean Coast Range — an example for the development of an active continental margin

Karsten Berg; Christoph Breitkreuz; Klaus -Werner Damm; Siegfried Pichowiak; Werner Zeil

doi:10.1007/bf01822090

Formation of magmatic crust at the Andean continental margin during early Mesozoic: a geological and thermal model of the North Chilean Coast Range

Tectonophysics ◽

10.1016/0040-1951(96)00006-6 ◽

1996 ◽

Vol 262 (1-4) ◽

pp. 263-279 ◽

Cited By ~ 12

Author(s):

F. Lucassen ◽

C.M.R. Fowler ◽

G. Franz

Keyword(s):

Continental Margin ◽

Thermal Model ◽

Coast Range ◽

Chilean Coast ◽

The North ◽

Early Mesozoic

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The petrochemistry of the Lower Proterozoic metamorphic rocks from the Dabieshan-Lianyungang area, the southeastern margin of the North China Platform

Mineralogical Magazine ◽

10.1180/minmag.1991.055.379.15 ◽

1991 ◽

Vol 55 (379) ◽

pp. 263-276 ◽

Cited By ~ 3

Author(s):

Sang Longkang

Keyword(s):

Continental Margin ◽

North China ◽

Active Continental Margin ◽

The South ◽

North China Platform ◽

The North ◽

Lower Proterozoic ◽

Southeastern Margin ◽

Tectonic Settings ◽

North China Plate

AbstractBased on geological studies, 141 rock analyses and 5 trace element analyses of metabasites, the present paper deals with the rock association, chemical features, protolith formation and the original tectonic settings upwards through the Lower Proterozoic metamorphic strata in the Dabieshan-Lianyungang area, in the south-east of the North China Platform. The results of the study indicate that the lower and middle parts of the metamorphic strata comprise terrigenous clastics, phosphoritic and aluminous sedimentary formations which formed under stable continental margin conditions. In the middle-upper part a calc-alkaline volcano-sedimentary formation under the active continental margin was developed. The Lower Proterozoic meta-strata of sedimentary-volcanosedimentary origin from bottom upwards suggest that the tectonic evolution of the south-eastern margin of the North China Platform is a process from stabilization to mobilization. This process suggests a northward subduction of the Yangtze Plate under the North China Plate during the later part of the early Proterozoic.

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The plutonism in the North Chilean Coast-Range and its geodynamic significance

Geologische Rundschau ◽

10.1007/bf01820181 ◽

1981 ◽

Vol 70 (3) ◽

pp. 1054-1076 ◽

Cited By ~ 8

Author(s):

Klaus-Werner Damm ◽

Siegfried Pichowiak ◽

Werner Zeil

Keyword(s):

Coast Range ◽

Chilean Coast ◽

The North

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Carboniferous granitic plutons from the northern margin of the North China block: implications for a late Palaeozoic active continental margin

Journal of the Geological Society ◽

10.1144/0016-76492005-190 ◽

2007 ◽

Vol 164 (2) ◽

pp. 451-463 ◽

Cited By ~ 212

Author(s):

SHUAN-HONG ZHANG ◽

YUE ZHAO ◽

BIAO SONG ◽

ZHEN-YU YANG ◽

JIAN-MIN HU ◽

...

Keyword(s):

Continental Margin ◽

North China ◽

Active Continental Margin ◽

North China Block ◽

Northern Margin ◽

The North ◽

Late Palaeozoic

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U-Pb Detrital Zircon Ages and Geochemical Features of the Jingxing Formation, (Qamdo Basin, Tibet: Implications): Inferences for the Metallogenic Model of the East Tethys Evaporite

Minerals ◽

10.3390/min11070745 ◽

2021 ◽

Vol 11 (7) ◽

pp. 745

Author(s):

Wenhua Han ◽

Haizhou Ma ◽

Weixuan Fang ◽

Huaide Cheng ◽

Yongshou Li ◽

...

Keyword(s):

Trace Elements ◽

Continental Margin ◽

Detrital Zircon ◽

Tectonic Setting ◽

Active Continental Margin ◽

Age Distribution ◽

Major And Trace Elements ◽

Jinsha River ◽

The North ◽

Detrital Zircon Ages

Qamdo basin is located between the suture zone of Jinsha River (Ailao Mountains) and that of Ban Gong Lake (Nujiang) in the eastern Tethys. Part of the Jingxing Formation is deposited in the southwest of the basin. In this study, two profiles were investigated from the north and south of Qamdo basin. The characteristics of detrital zircon LA-ICP-MS U-Pb age, and the main and trace elements of sandstone were analyzed. The characteristics of major and trace elements showed that the tectonic setting of the study area is mainly composed of a relatively stable active continental margin and a passive continental margin, showing characteristics of a continental island arc. The weathering degree of Jingxing Formation in the Qamdo area is lower than that in the Lanping-Simao area, which may be closer to the origin. The age distribution characteristics of detrital zircon grains indicate that the Qiangtang Block, Youjiang basin, and Yangtze area jointly constitute the provenance of the Qamdo-Lanping-Simao basin. Both basins may be part of a large marine basin with unified water conservancy connection before evaporite deposition. Metamorphic seawater from the Qamdo basin may migrate to the Lanping-Simao basin and even the Khorat basin, where evaporite was deposited.

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

Geological Magazine ◽

10.1017/s0016756811000677 ◽

2011 ◽

Vol 149 (2) ◽

pp. 264-290 ◽

Cited By ~ 21

Author(s):

ALASTAIR H. F. ROBERTSON ◽

KEMAL TASLI ◽

NURDAN İNAN

Keyword(s):

Continental Margin ◽

Carbonate Platform ◽

Middle Eocene ◽

Active Continental Margin ◽

Volcanic Rocks ◽

Basaltic Rocks ◽

Tectonic Model ◽

The North ◽

Basic Volcanic ◽

Upper Maastrichtian

AbstractSedimentary 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.

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Eocene development of the northerly active continental margin of the Southern Neotethys in the Kyrenia Range, north Cyprus

Geological Magazine ◽

10.1017/s0016756813000563 ◽

2013 ◽

Vol 151 (4) ◽

pp. 692-731 ◽

Cited By ~ 18

Author(s):

ALASTAIR H.F. ROBERTSON ◽

GILLIAN A. McCAY ◽

KEMAL TASLI ◽

AŞEGÜL YILDIZ

Keyword(s):

Debris Flow ◽

Subduction Zone ◽

Continental Margin ◽

Middle Eocene ◽

Active Continental Margin ◽

Volcanic Rocks ◽

Late Eocene ◽

Calcareous Nannofossils ◽

The North ◽

Thrust Sheets

AbstractWe focus on an active continental margin related to northwards subduction during the Eocene in which sedimentary melange (‘olistostromes’) forms a key component. Maastrichtian – Early Eocene deep-marine carbonates and volcanic rocks pass gradationally upwards into a thick succession (<800 m) of gravity deposits, exposed in several thrust sheets. The lowest levels are mainly siliciclastic turbidites and debris-flow deposits. Interbedded marls contain Middle Eocene planktonic/benthic foraminifera and calcareous nannofossils. Sandstones include abundant ophiolite-derived grains. The higher levels are chaotic debris-flow deposits that include exotic blocks of Late Palaeozoic – Mesozoic neritic limestone and dismembered ophiolite-related rocks. A thinner sequence (<200 m) in one area contains abundant redeposited Paleogene pelagic limestone and basalt. Chemical analysis of basaltic clasts shows that some are subduction influenced. Basaltic clasts from unconformably overlying alluvial conglomerates (Late Eocene – Oligocene) indicate derivation from a supra-subduction zone ophiolite, including boninites. Taking account of regional comparisons, the sedimentary melange is interpreted to have formed within a flexurally controlled foredeep, floored by continental crust. Gravity flows including large limestone blocks, multiple debris flows and turbidites were emplaced, followed by southwards thrust imbrication. The emplacement was possibly triggered by the final closure of an oceanic basin to the north (Alanya Ocean). Further convergence between the African and Eurasian plates was accommodated by northwards subduction beneath the Kyrenia active continental margin. Subduction zone rollback may have triggered collapse of the active continental margin. Non-marine to shallow-marine alluvial fans prograded southwards during Late Eocene – Oligocene time, marking the base of a renewed depositional cycle that lasted until latest Miocene time.

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First Evidence of Contourite Drifts in the North-Western Sicilian Active Continental Margin (Southern Tyrrhenian Sea)

Journal of Marine Science and Engineering ◽

10.3390/jmse9101043 ◽

2021 ◽

Vol 9 (10) ◽

pp. 1043

Author(s):

Daniele Spatola ◽

Attilio Sulli ◽

Daniele Casalbore ◽

Francesco Latino Chiocci

Keyword(s):

Continental Margin ◽

Active Continental Margin ◽

High Amplitude ◽

Tyrrhenian Sea ◽

Maximum Thickness ◽

The North ◽

Contourite Drifts ◽

Mass Flow Deposits ◽

Seismic Reflectors ◽

North Western

We present the results of an integrated geomorphological and seismo-stratigraphic study based on high resolution marine data acquired in the north-western Sicilian continental margin. We document for the first time five contourite drifts (marked as EM1a, EM2b, EM2, EM3a, and EM3b), located in the continental slope at depths between ca. 400 and 1500 m. EM1a,b have been interpreted as elongated mounded drifts. EM1a,b are ca. 3 km long, 1.3 km wide, and have a maximum thickness of 36 m in their center that thins northwards, while EM1b is smaller with a thickness up to 24 m. They are internally characterized by mounded seismic packages dominated by continuous and parallel reflectors. EM2 is located in the upper slope at a depth of ca. 1470 m, and it is ca. 9.3 km long, more than 3.9 km wide, and has a maximum thickness of ca. 65 m. It consists of an internal aggradational stacking pattern with elongated mounded packages of continuous, moderate to high amplitude seismic reflectors. EM2 is internally composed by a mix of contourite deposits (Holocene) interbedded with turbiditic and/or mass flow deposits. EM1a,b and EM2 are deposited at the top of an erosional truncation aged at 11.5 ka, so they mostly formed during the Holocene. EM3a,b are ca. 16 km long, more than 6.7 km wide, and have a thickness up to 350 m. Both EM2 and EM3a,b have been interpreted as sheeted drift due to their morphology and seismic features. The spatial distribution of the contourite drifts suggests that the drifts are likely generated by the interaction of the LIW, and deep Tyrrhenian water (TDW) on the seafloor, playing an important role in the shaping this continental margin since the late Pleistocene-Holocene. The results may help to understand the deep oceanic processes affecting the north-western Sicilian continental margin.

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Volcanic dykes in the north Chilean Coast Range

Geologische Rundschau ◽

10.1007/bf01820878 ◽

1984 ◽

Vol 73 (3) ◽

pp. 853-868 ◽

Cited By ~ 5

Author(s):

Siegfried Pichowiak ◽

Christoph Breitkreuz

Keyword(s):

Coast Range ◽

Chilean Coast ◽

The North

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Mineralogy, mineral chemistry and thermobarometry of post-mineralization dykes of the Sungun Cu–Mo porphyry deposit (Northwest Iran)

Open Geosciences ◽

10.1515/geo-2020-0009 ◽

2020 ◽

Vol 12 (1) ◽

pp. 764-790

Author(s):

Amin Allah Kamali ◽

Mohsen Moayyed ◽

Nasir Amel ◽

Fadaeian Mohammad ◽

Marco Brenna ◽

...

Keyword(s):

Active Continental Margin ◽

Mineral Chemistry ◽

Quartz Diorite ◽

Alkaline Magmatism ◽

Porphyry Deposit ◽

Average Percentage ◽

The North ◽

Northwestern Iran ◽

Subduction System ◽

Late Stages

AbstractThe Sungun copper–molybdenum porphyry deposit is located in the north of Varzaghan, northwestern Iran. The Sungun quartz-monzonite is the oldest mineralized intrusive body in the region and was emplaced during the Early Miocene. Eight categories of the late and unmineralized dykes, which include quartz diorite, gabbrodiorite, diorite, dacite, microdiorite and lamprophyre (LAM), intrude the ore deposit. The main mineral phases in the dykes include plagioclase, amphibole and biotite, with minor quartz and apatite and secondary chlorite, epidote, muscovite and sericite. The composition of plagioclase in the quartz diorite dykes (DK1a, DK1b and DK1c) varies from albite-oligoclase to andesine and oligoclase to andesine; in the diorite, it varies from andesine to labradorite; in the LAM, from albite to oligoclase; and in the microdiorite (MDI), it occurs as albite. Amphibole compositions are consistent with classification as hornblende or calcic amphibole. Based on their AlIV value (less than 1.5), amphibole compositions are consistent with an active continental margin affinity. The average percentage of pistacite (Ps) in epidotes formed from alteration of plagioclase and ferromagnesian minerals is 27–23% and 25–30%, respectively. Thermobarometric studies based on amphibole and biotite indicate approximate dyke crystallization temperature of 850–750℃, pressure of 231–336 MPa and high fO2 (>nickel-nickel-oxide buffer). The range of mineral compositions in the postmineralization dyke suite is consistent with a genetic relationship with the subduction of the Neotethys oceanic crust beneath the continental crust of the northwest part of the Central Iranian Structural Zone. Despite the change from calc-alkaline to alkaline magmatism, the dykes are likely related to the late stages of magmatic activity in the subduction system that also generated the porphyry deposit.

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