Character and tectonic setting of plutonic rocks in the Gällivare area, northern Norrbotten, Sweden

The Central Gneiss Belt comprises parautochthonous gneisses overlain by northwest-transported allochthonous terranes originating from the pre-Grenvillian Laurentian margin or from farther outboard as inferred for the Parry Sound allochthon. In the Huntsville region, orthogneisses of the Algonquin allochthon yielded U-Pb zircon igneous crystallization ages at 1444 +12-8, 1442 +9-8, and 1432 +54-98 Ma. In absence of direct evidence for older intrusions, the association of these plutonic rocks with gneisses giving Nd crustal residence ages of ca. 1.7 Ga sets the Algonquin allochthon apart from the underlying parautochthon, and from the overlying Muskoka allochthon. Orthogneisses from the latter also give zircon igneous ages at 1453 ± 6 Ma and 1427 +16-13 Ma, with no older memory. These ages closely correspond to the Nd model ages of associated gneisses, testifying to the juvenile nature of this terrane. Plutonic ages from the Algonquin and Muskoka allochthons are older than those of the Parry Sound allochthon to the northwest, thereby confirming its exotic nature. The importance, distribution, and nature of 1475-1410 Ma plutonism down structural section from the juvenile Muskoka allochthon, via the more mature Algonquin allochthon, into the parautochthon and Grenville foreland, testify to the development of an ensialic arc along that part of the Laurentian margin tectonically incorporated in the Central Gneiss Belt. Furthermore, the age and structural relationship require Grenvillian break-back thrust reactivation to account for the high structural position of the Muskoka allochthon, which was part of the Laurentian ramp during overthrusting of the younger and farther travelled Parry Sound allochthon.

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Geology, geochemistry, age and tectonic setting of the Gore-Gambella plutonic rocks, western Ethiopia.

10.22215/etd/1989-01593 ◽

1989 ◽

Author(s):

Teklewold Ayalew Alemayehu

Keyword(s):

Tectonic Setting ◽

Plutonic Rocks ◽

Western Ethiopia

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U-Pb LA-ICP-MS GEOCHRONOLOGY AND GEOCHEMISTRY OF JURASSIC VOLCANIC AND PLUTONIC ROCKS FROM THE PUTUMAYO REGION (SOUTHERN COLOMBIA): TECTONIC SETTING AND REGIONAL CORRELATIONS

Revista Boletín de Geología ◽

10.18273/revbol.v38n2-2016001 ◽

2016 ◽

Vol 38 (2) ◽

pp. 21-38 ◽

Cited By ~ 10

Author(s):

Sebastian Zapata ◽

Agustin Cardona ◽

Carlos Jaramillo ◽

Víctor Valencia ◽

Jeff Vervoort

Keyword(s):

Tectonic Setting ◽

Icp Ms ◽

Plutonic Rocks

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A unifying lithostratigraphy of late Cretaceous–early Tertiary fore-arc volcanic sequences on Alexander Island, Antarctica

Antarctic Science ◽

10.1017/s0954102097000266 ◽

1997 ◽

Vol 9 (2) ◽

pp. 209-220 ◽

Cited By ~ 8

Author(s):

Joe J. McCarron

Keyword(s):

Antarctic Peninsula ◽

Late Cretaceous ◽

Tectonic Setting ◽

Volcanic Rocks ◽

Magmatic Arc ◽

Ridge Subduction ◽

Volcanic Group ◽

Early Tertiary ◽

Plutonic Rocks ◽

The Antarctic

Late Cretaceous–early Tertiary subduction-related fore-arc volcanic rocks are exposed in a north–south linear belt along the length of Alexander Island. The age and tectonic setting of these rocks is well understood; they are not considered to represent “normal” arc magmas but were generated in the fore-arc as a result of ridge subduction. Due to their distinct composition and mode of formation, they are no longer considered to be genetically related to the Antarctic Peninsula magmatic arc. They are therefore removed from the Antarctic Peninsula Volcanic Group and placed in a newly defined Alexander Island Volcanic Group. The group is made up of the Monteverdi, Staccato, Walton, Colbert, Elgar and Finlandia formations, which vary widely in lithology, facies and age. The Colbert and Elgar formations are subdivided into nine and three members respectively. Type localities, representative lithologies and age of each of the formations are discussed. The Staccato and Colbert Magmatic complexes are defined to include volcanic and plutonic rocks that are considered to be coeval. The Rouen Intrusive complex combines the plutonic rocks from the Rouen Mountains and Rothschild Island on the basis of age and chemistry.

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Geochemistry and tectonic setting of plutonic rocks in Kalasur (west Kaleybar-NW Iran)

Researches in Earth Sciences ◽

10.52547/esrj.12.2.124 ◽

2021 ◽

Vol 12 (2) ◽

pp. 124-139

Author(s):

Hamideh Javadi Tazekand ◽

Mohsen Moayyed ◽

Ahmad Jahangiri ◽

Mohammad Reza Hossinzadeh ◽

Amir Rahmani

Keyword(s):

Tectonic Setting ◽

Nw Iran ◽

Plutonic Rocks

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Geochemistry and tectonic setting of late Precambrian volcanic and plutonic rocks in southeastern Cape Breton Island, Nova Scotia

Canadian Journal of Earth Sciences ◽

10.1139/e93-097 ◽

1993 ◽

Vol 30 (6) ◽

pp. 1147-1154 ◽

Cited By ~ 14

Author(s):

Sandra M. Barr

Keyword(s):

Subduction Zone ◽

Continental Margin ◽

Tectonic Setting ◽

Volcanic Arc ◽

Cape Breton Island ◽

Late Precambrian ◽

Cape Breton ◽

Coastal Belt ◽

Plutonic Rocks ◽

Mountain Belts

Late Precambrian volcanic–sedimentary belts in the Mira (Avalon) terrane of southeastern Cape Breton Island display differences in rock types, petrochemistry, and age, showing that they did not form contemporaneously above a single northwest-dipping subduction zone, as proposed in earlier models. The oldest rocks are 680 Ma mafic and felsic flows and tuffs, and abundant, mainly tuffaceous, sedimentary rocks in the Stirling belt. They are interpreted to have formed in a trough within or peripheral to a volcanic-arc complex. Northwest of the Stirling belt, the East Bay Hills, Coxheath Hills, and Sporting Mountain belts consist of ca. 620 Ma mafic to felsic subaerial pyroclastic rocks and flows and contemporaneous dioritic to granitic plutons. Both volcanic and plutonic rocks are calc-alkalic to high-K calc-alkalic suites, formed in a continental margin volcanic arc. A correlative 620 Ma plutonic suite intruded the western margin of the Stirling belt, suggesting that subduction may have been toward the present southeast. The ca. 575 Ma Coastal belt, located southeast of the Stirling belt, is significantly younger than the other belts and appears to represent a less evolved calc-alkalic to low-K continental margin volcanic-arc and intra-arc basin formed above a northwest-dipping subduction zone. These various volcanic–sedimentary belts were juxtaposed by lateral movements along major faults in the late Precambrian to form this part of the Avalon composite terrane. Subduction-related, calc-alkalic magmatism at ca. 620 Ma was apparently widespread throughout the Avalon terrane of the northern Appalachian Orogen. However, ca. 680 Ma magmatism like that in the Stirling belt has been documented elsewhere only in the Connaigre Bay Group of Newfoundland. Circa 575 Ma and younger subduction-generated igneous activity like that in the Coastal belt has been recognized in southern New Brunswick, but alkaline magmas were forming in extensional regimes in other areas of the Avalon terrane at that time.

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