Skip to Main Content
Skip Nav Destination

How was the Iapetus Ocean infected with subduction?

Geology (2014) 42 (12): 1095–1098.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
A new reconstruction of Phanerozoic Earth evolution: Toward a big-data approach to global paleogeography
Tectonophysics (2024) 874: 230198.
Late Devonian syntaxis in the Northern Appalachian orogen
Geological Society, London, Special Publications (2024) 542 (1)
New evidence for the Baltican cratonic affinity and Tonian to Ediacaran tectonic evolution of West Avalonia in the Avalon Peninsula, Newfoundland, Canada
Precambrian Research (2023) 390: 107046.
The provenance of Avalonia and its tectonic implications: a critical reappraisal
Geological Society, London, Special Publications (2023) 531 (1): 207.
Cambrian ages for metavolcanic rocks in the Lower Köli Nappes, Swedish Caledonides: implications for the status of the Virisen arc terrane
Journal of the Geological Society (2023) 180 (6)
A trans-Iapetus transform fault control for the evolution of the Rheic Ocean: Implications for an early Paleozoic transition of accretionary tectonics
GSA Bulletin (2022) 134 (11-12): 2790.
Terrane history of the Iapetus Ocean as preserved in the northern Appalachians and western Caledonides
Earth-Science Reviews (2022) 233: 104163.
From supercontinent to superplate: Late Paleozoic Pangea's inner deformation suggests it was a short-lived superplate
Earth-Science Reviews (2022) 226: 103918.
Petrogenesis of Siluro-Devonian rhyolites of the Tobique Group in the northwestern Appalachians (northern New Brunswick, Canada): tectonic implications for the accretion history of peri-Gondwanan terranes along the Laurentian margin
Geological Society, London, Special Publications (2021) 503 (1): 391.
Provenance and Paleozoic tectonic evolution of Ganderia and its relationships with Avalonia and Megumia in the Appalachian-Caledonide orogen
Gondwana Research (2021) 98: 212.
Pannotia: in defence of its existence and geodynamic significance
Geological Society, London, Special Publications (2021) 503 (1): 13.
Early­­­­–Middle Ordovician sedimentation and bimodal volcanism at the margin of Iapetus: the Trollhøtta–Kinna Basin of the central Norwegian Caledonides
Geological Society, London, Special Publications (2021) 503 (1): 251.
Tectonic evolution of Anglesey and adjacent mainland North Wales
Geological Society, London, Special Publications (2021) 503 (1): 371.
Pannotia to Pangaea: Neoproterozoic and Paleozoic Orogenic Cycles in the Circum-Atlantic Region: A celebration of the career of Damian Nance
Geological Society, London, Special Publications (2021) 503 (1): 1.
Tonian–Ediacaran tectonomagmatic evolution of West Avalonia and its Ediacaran–early Cambrian interactions with Ganderia: an example of complex terrane transfer due to arc–arc collision?
Geological Society, London, Special Publications (2021) 503 (1): 143.
Patterns of Silurian deformation and magmatism during sinistral oblique convergence, northern Scottish Caledonides
Journal of the Geological Society (2020) 177 (5): 893.
Evolution of Subduction Dynamics beneath West Avalonia in Middle to Late Ordovician Times
Lithosphere (2020) 2020 (1)
Tectono‐magmatic division of the Late Ordovician (Sandbian) volcanism at the south‐western margin of Baltica using immobile trace elements: Relations to the plate movements in the Iapetus Palaeo‐Ocean
Geological Journal (2020) 55 (7): 5155.
Plio‐Pleistocene fault reactivation within the Crag Basin, eastern UK: implications for structural controls of landscape development within an intraplate setting
Boreas (2020) 49 (4): 685.
Anticosti foreland basin offshore of western Newfoundland: Concealed record of northern Appalachian orogen development
Basin Research (2020) 32 (1): 25.
Diachronous Paleozoic accretion of peri-Gondwanan terranes at the Laurentian margin
Geological Society, London, Special Publications (2019) 470 (1): 289.
Detrital zircon characterization of early Cambrian sandstones from East Avalonia and SE Ireland: implications for terrane affinities in the peri-Gondwanan Caledonides
Geological Magazine (2019) 156 (07): 1217.
The dynamic life of an oceanic plate
Tectonophysics (2019) 760: 107.
Examining the influence of tectonic inheritance on the evolution of the North Atlantic using a palinspastic deformable plate reconstruction
Geological Society, London, Special Publications (2019) 470 (1): 245.
Evidence for a late Cambrian juvenile arc and a buried suture within the Laurentian Caledonides of Scotland: Comparisons with hyperextended Iapetan margins in the Appalachian Mountains (North America) and Norway
Geology (2019) 47 (8): 734.
The future of Earth's oceans: consequences of subduction initiation in the Atlantic and implications for supercontinent formation
Geological Magazine (2018) 155 (1): 45.
A hafnium isotopic record of magmatic arcs and continental growth in the Iapetus Ocean: The contrasting evolution of Ganderia and the peri-Laurentian margin
Gondwana Research (2018) 58: 141.
Magmatic record of Late Devonian arc-continent collision in the northern Qiangtang, Tibet: Implications for the early evolution of East Paleo-Tethys Ocean
Lithos (2018) 308-309: 104.
Detrital zircon geochronology of pre‐ and syncollisional strata, Acadian orogen, Maine Appalachians
Basin Research (2017) 29 (5): 571.
Nd isotopic and trace element constraints on the source of Silurian–Devonian mafic lavas in the Chaleur Bay Synclinorium of New Brunswick (Canada): Tectonic implications
Tectonophysics (2016) 681: 364.
A plate tectonic scenario for the Iapetus and Rheic oceans
Gondwana Research (2016) 36: 275.
Unusual soft-sediment deformation structures in the Maritimes Basin, Canada: Possible seismic origin
Sedimentary Geology (2016) 344: 145.
Taconian retrograde eclogite from northwest Connecticut, USA, and its petrotectonic implications
Lithos (2016) 240-243: 276.
Four-dimensional context of Earth's supercontinents
Geological Society, London, Special Publications (2016) 424 (1): 1.
Laurentian and Amazonian sediment sources to Neoproterozoic–lower Paleozoic Maryland Piedmont rocks
Geosphere (2015) 11 (4): 1042.
Close Modal

or Create an Account

Close Modal
Close Modal