Tectonic evolution of the Caledonian orogeny in Scotland: a review based on the timing of magmatism, metamorphism and deformation

Classic tectonic models for the Caledonian orogeny in Scotland involve Ordovician collision of Laurentia–Midland Valley arc (Grampian orogeny), followed by middle Silurian collision of Laurentia–Baltica (Scandian orogeny) and 500–700 km of sinistral displacement along the Great Glen fault separating...

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Bibliographic Details
Published in:Geological magazine 2022-01, Vol.159 (1), p.124-152
Main Author: Searle, Michael P.
Format: Article
Language:English
Subjects:
absolute age
Caledonian Orogeny
Cambrian
Cenozoic
Continental shelves
Deformation
Devonian
Europe
Fault lines
Garnet
garnet group
Geology
Grampian Orogeny
Granite
granites
Great Britain
Highlands
igneous and metamorphic rocks
igneous rocks
Island arcs
Magma
magmatism
Melting
Metamorphic rocks
Metamorphism
Metamorphism (geology)
Monazite
nesosilicates
Obduction
Ordovician
Original Article
Orogeny
orthosilicates
Paleozoic
Petrology
phosphates
plutonic rocks
prograde metamorphism
Regions
S-type granites
Scandian Orogeny
Scotland
Shearing
Shelf sedimentation
silicates
Silurian
Stratigraphy
Structural geology
Subduction
Subduction (geology)
tectonic elements
Tectonics
Thickening
U/Pb
United Kingdom
Upper Cambrian
Valleys
Western Europe
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Summary:Classic tectonic models for the Caledonian orogeny in Scotland involve Ordovician collision of Laurentia–Midland Valley arc (Grampian orogeny), followed by middle Silurian collision of Laurentia–Baltica (Scandian orogeny) and 500–700 km of sinistral displacement along the Great Glen fault separating the Northern Highlands (Moine Supergroup) from the Grampian Highlands (Dalradian Supergroup). A review of the timing of magmatic and metamorphic rocks across Scotland allows a simpler explanation that fits with a classic Himalayan-style continent–island arc–continent collision. Late Cambrian – Early Ordovician NW-directed ophiolite obduction (Highland Border complex) coincided with the ending of stable continental shelf sedimentation along the eastern margin of Laurentia. Following collision between Laurentia and the Midland Valley arc–microcontinent in Early Ordovician time, crustal thickening and shortening led to almost continuous regional metamorphism from c. 470 to 420 Ma, rather than two discrete ‘orogenies’ (Grampian, Scandian). U–Pb monazite and garnet growth ages indicating prograde metamorphism, and S-type granites related to melting of crustal protoliths are coeval in the Grampian and Northern Highlands terranes. There is no evidence that the Great Glen fault was a terrane boundary, and strike-slip shearing post-dated emplacement of Silurian – Early Devonian granites. Late orogenic alkaline granites (c. 430–405 Ma) in both Moine and Dalradian terranes are not associated with subduction. They are instead closely related to regional alkaline appinite–lamprophyric magmatism resulting from simultaneous melting of lower crust and enriched lithospheric mantle. Caledonian deformation and metamorphism in northern Scotland, with continuous SE-directed subduction, show geometry and time scales that are comparable to the Cenozoic India–Kohistan arc–Asia collisional Himalayan orogeny.
ISSN:0016-7568
1469-5081
DOI:10.1017/S0016756821000947