Your search keyword '"Pisarevsky, Sergei A."' showing total 163 results

151. Palaeomagnetism of the Lower Ordovician Orthoceras Limestone, St. Petersburg, and a revised drift history for Baltic in the early Palaeozoic.

Author

Smerhurst, Mark A., Khramov, Alexey N., and Pisarevsky, Sergei

Subjects

PALEOMAGNETISM, LIMESTONE

Abstract

Investigates the paleomagnetism of the lower Ordovician orthoceras limestone of Saint Petersburg in Moscow, Russia. Significance of the Baltic motion changes on the reduction of the rotational component of movement; Relevance of the Arenig pole knowledge of Ordovician apparent polar wonder on Baltic paleoaltitude orientation; Exclusion of the Fen complex of Baltic.

Published

1998

152. Decoding Earth's rhythms: modulation of supercontinent cycles by longer superocean cycles.

Author

Li, Zheng-Xiang, Mitchell, Ross, Spencer, Christopher, Kirscher, Uwe, Pisarevsky, Sergei, Ernst, Richard, and Murphy, Brendan

Published

2019

153. Late Paleoproterozoic Paleogeography of Baltica and Laurentia: New Paleomagnetic Data from 1.80-1.75 Ga Mafic Intrusions of Fennoscandia and Sarmatia.

Author

LUBNINA, Natalia V., PISAREVSKY, Sergei A., BOGDANOVA, Svetlana V., and SOKOLOV, Svetoslav J.

Subjects

*PALEOGEOGRAPHY, *CONTINENTAL drift, *PRECAMBRIAN, *MAGMATISM

Abstract

The article talks about tectonic evolution and paleogeography of continental blocks Fennoscandia and VolgoSarmatia in global Precambrian paleogeography. It talks of a paleomagnetic and coeval gabbro-dolerite Ropruchey, and mafic dykes study. It mentions the paleomagnetic data showing a significant difference between Fennoscandian and Sarmatian continental blocks that are characterized by convergent tectonics, magmatism, and common continental margin, of the Columbia supercontinent.

Published

2016

154. A trans-Iapetus transform fault control for the evolution of the Rheic Ocean: Implications for an early Paleozoic transition of accretionary tectonics: Reply.

Author

Lei Wu, Murphy, J. Brendan, Collins, William J., Waldron, John W. F., Zheng-Xiang Li, Pisarevsky, Sergei A., and Halverson, Galen P.

Subjects

*ATMOSPHERIC sciences, *GEOLOGICAL time scales, *ENVIRONMENTAL sciences, *EARTH sciences, *GEOLOGICAL surveys

Abstract

The article explores the significance of a trans-Iapetus transform fault in the development of the Rheic Ocean during the early Paleozoic era. The authors argue that this fault played a crucial role in the movement of land masses between Gondwana and Laurentia-Baltica, ultimately leading to the formation of the Rheic Ocean. They also address criticisms of their model, specifically regarding the geological history of southern New England. The authors assert that recent studies support their interpretation of the region's geological evolution during the Paleozoic Iapetus orogenic cycle. The accompanying document is a compilation of references and citations from various scientific articles and publications related to geological research. These sources cover a range of topics, including the Virgilina deformation in Virginia and North Carolina, the tectonic evolution of the southern and central Appalachian internides, the accretion of peri-Gondwanan terranes, and the history of the Iapetus Ocean. These articles offer valuable insights into the geological processes and events that have shaped the Earth's crust in these regions. [Extracted from the article]

Published

2024

155. Archean geodynamics: Ephemeral supercontinents or long-lived supercratons.

Author

Yebo Liu, Mitchell, Ross N., Zheng-Xiang Li, Kirscher, Uwe, Pisarevsky, Sergei A., and Chong Wang

Subjects

*ARCHAEAN, *GEODYNAMICS, *SUPERCONTINENT cycles, *CRATONS

Abstract

Many Archean cratons exhibit Paleoproterozoic rifted margins, implying they were pieces of some ancestral landmass(es). The idea that such an ancient continental assembly represents an Archean supercontinent has been proposed but remains to be justified. Starkly contrasting geological records between different clans of cratons have inspired an alternative hypothesis where cratons were clustered in multiple, separate "supercratons." A new ca. 2.62 Ga paleomagnetic pole from the Yilgarn craton of Australia is compatible with either two successive but ephemeral supercontinents or two long-lived supercratons across the Archean-Proterozoic transition. Neither interpretation supports the existence of a single, long-lived supercontinent, suggesting that Archean geodynamics were fundamentally different from subsequent times (Proterozoic to present), which were influenced largely by supercontinent cycles. [ABSTRACT FROM AUTHOR]

Published

2021

156. The amalgamation of Pangea: Paleomagnetic and geological observations revisited.

Author

Lei Wu, Murphy, J. Brendan, Quesada, Cecilio, Zheng-Xiang Li, Waldron, John W. F., Williams, Simon, Pisarevsky, Sergei, and Collins, William J.

Subjects

*POLAR wandering, *PALEOZOIC Era, *PALEOGEOGRAPHY, *CONTINENTS, GONDWANA (Continent), PANGAEA (Supercontinent), LAURENTIA (Continent)

Abstract

The supercontinent Pangea formed by the subduction of the Iapetus and Rheic oceans between Gondwana, Laurentia, and Baltica during mid-to-late Paleozoic times. However, there remains much debate regarding how this amalgamation was achieved. Most paleogeographic models based on paleomagnetic data argue that the juxtaposition of Gondwana and Laurussia (Laurentia-Baltica) was achieved via long-lasting highly oblique convergence in the late Paleozoic. In contrast, many geology-based reconstructions suggest that the collision between the two continents was likely initiated via a Gondwanan promontory comprising the Iberian, Armorican, and Bohemian massifs, and parts of the basement units in the Alpine orogen during the Early Devonian. To help resolve this discrepancy, we present an updated compilation of high-quality paleopoles of mid-to-late Paleozoic ages (spanning Middle Ordovician and Carboniferous times) from Gondwana, Laurentia, and Baltica. These paleopoles were evaluated with the Van der Voo selection criteria, corrected for inclination error where necessary, and were used to revise their apparent polar wander (APW) paths. The revised APW paths were constructed using an innovative approach in which age errors, A95 ovals, and Q-factors of individual paleopoles are taken into account. By combining the resulting APW paths with existing geological data and field relationships in the European Variscides, we provide mid-to-late Paleozoic paleogeographic reconstructions which indicate that the formation of Pangea was likely initiated at 400 Ma via the collision between Laurussia and a ribbon-like Gondwanan promontory that was itself formed by a scissor-like opening of the Paleotethys Ocean, and that the amalgamation culminated in the mostly orthogonal convergence between Gondwana and Laurussia. [ABSTRACT FROM AUTHOR]

Published

2021

157. Paleomagnetic constraints on the duration of the Australia-Laurentia connection in the core of the Nuna supercontinent.

Author

Kirscher, Uwe, Mitchell, Ross N., Yebo Liu, Nordsvan, Adam R., Cox, Grant M., Pisarevsky, Sergei A., Chong Wang, Lei Wu, Murphy, J. Brendan, and Zheng-Xiang Li

Subjects

*CONTINENTS, LAURENTIA (Continent)

Abstract

The Australia-Laurentia connection in the Paleoproterozoic to Mesoproterozoic supercontinent Nuna is thought to have initiated by ca. 1.6 Ga when both continents were locked in a proto-SWEAT (southwestern U.S.-East Antarctic) configuration. However, the longevity of that configuration is poorly constrained. Here, we present a new high-quality paleomagnetic pole from the ca. 1.3 Ga Derim Derim sills of northern Australia that suggests Australia and Laurentia were in the same configuration at that time. This new paleopole also supports a connection between Australia and North China and, in conjunction with previously reported data from all continents, indicates that the breakup of Nuna largely occurred between ca. 1.3 and 1.2 Ga. [ABSTRACT FROM AUTHOR]

Published

2021

158. Deconstructing South China and consequences for reconstructing Nuna and Rodinia.

Author

Cawood, Peter A., Wang, Wei, Zhao, Tianyu, Xu, Yajun, Mulder, Jacob A., Pisarevsky, Sergei A., Zhang, Limin, Gan, Chengshi, He, Huiying, Liu, Huichuan, Qi, Liang, Wang, Yuejun, Yao, Jinlong, Zhao, Guochun, Zhou, Mei-Fu, and Zi, Jian-Wei

Subjects

*SEDIMENTARY rocks, *IGNEOUS rocks, *SHEAR zones, *WATERSHEDS, *OROGENY, *CRATONS, RODINIA (Supercontinent)

Abstract

Contrasting models for internal and external locations of South China within the Nuna and Rodinia supercontinents can be resolved when the current lithotectonic associations of Mesoproterozoic and older rocks units that constitute the craton are redefined into four lithotectonic domains: Kongling, Kunming-Hainan, Wuyi, and Coastal. The Kongling and Kunming-Hainan domains are characterized by isolated Archean to early Paleoproterozoic rock units and events and crop out in northern and southern South China, respectively. The Kunming-Hainan Domain is preserved in three spatially separated regions at Kunming (southwestern South China), along the Ailaoshan shear zone, and within Hainan Island. Both domains were affected by late Paleoproterozoic tectonothermal events, indicating their likely juxtaposition by this time to form the proto-Yangtze Block. Late Paleoproterozoic and Mesoproterozoic sedimentary and igneous rock units developed on the proto-Yangtze Block, especially in its southern portions, and help link the rock units that formed along the shear zone at Ailaoshan and on Hainan Island into a single, spatially unified unit prior to Paleozoic to Cenozoic structural disaggregation and translation. The Wuyi Domain consists of late Paleoproterozoic rock units within a NE-SW trending, fault-bounded block in eastern South China. The Coastal Domain lies east of the Wuyi domain and is inferred to constitute a structurally separate block. Basement to the domain is not exposed, but zircon Hf model ages from Mesozoic granites suggest Mesoproterozoic basement at depth. The Archean to Paleoproterozoic tectonothermal record of the Kongling and Kunming-Hainan domains corresponds closely with that of NW Laurentia, suggesting all were linked, probably in association with assembly and subsequent partial fragmentation of the Nuna supercontinent. Furthermore, the age and character of Mesoproterozoic magmatism and detrital zircon signature of sedimentary rocks in the proto-Yangtze Block matches well with western Laurentia and eastern Australia-Antarctica. In particular, the detrital zircon signature of late Paleoproterozoic to early Mesoproterozoic sedimentary units in the block (e.g. Dongchuan Group) share a similar age spectrum with the Wernecke Supergroup of northwest Laurentia. This, together with similarities in the type and age of Fe-Cu mineralization in the domain with that in eastern Australia-Antarctica, especially northeast Australia, suggests a location adjacent to northwest Laurentia, southern Siberia, and northeast Australia within the Nuna supercontinent. The timing and character of late Paleoproterozoic magmatic activity in the Wuyi domain along with age of detrital zircons in associated sedimentary rocks matches the record of northern India. During rifting between Australia–Antarctica and Laurentia in the late Mesoproterozoic, the proto-Yangtze Block remained linked to northeast Australia. During accretionary orogenesis in the early Neoproterozoic, the proto-Yangtze Block assembled with the Wuyi Domain along the northern margin of India. The Coastal domain likely accreted at this time forming the South China Craton. Displacement of the Hainan and Ailaoshan assemblages from southwest of the Kunming assemblage likely occurred in the Cenozoic with the activation of the Ailaoshan-Red River fault system but could have begun in the early to mid-Paleozoic based on evidence for tectonothermal events in the Hainan assemblage. [ABSTRACT FROM AUTHOR]

Published

2020

159. Database-wide studies on the validity of the Geocentric Axial Dipole hypothesis in the Precambrian

Author

Veikkolainen, Toni, University of Helsinki, Faculty of Science, Department of Physics, Helsingin yliopisto, matemaattis-luonnontieteellinen tiedekunta, fysiikan laitos, Helsingfors universitet, matematisk-naturvetenskapliga fakulteten, institutionen för fysik, Pisarevsky, Sergei, and Pesonen, Lauri J.

Subjects

geofysiikka

Abstract

A branch of science concentrated on studying the evolution of the Earth's magnetic field has emerged in the last half century. This is called paleomagnetism, and its applications include calculations of field directions and intensity in the past, plate tectonic reconstructions, variations in the conditions in the Earth s deep interior and the climatic history. With the increasing quantity and quality of observations, it has been even possible to construct models of conterminous continent blocks, or supercontinents, of the Pre-Pangaea time. These are crucial for the understanding of the evolution of our planet from the Archean to today. Paleomagnetists have traditionally heavily relied on the theory that when averaged over a period long enough, the Earth s magnetic field can be approximated as being equivalent to that generated by a magnetic dipole located at the center of the Earth and aligned with the axis of rotation. The credibility of this GAD (Geocentric Axial Dipole) hypothesis is strongest in the geologically most recent eras, such as most of the Phanerozoic and notably in the last 400 million years. Attempts to get an adequate view of the magnetic field in the Earth's earlier history have for a long time been challenged by the reliability limitations of Precambrian paleomagnetic data. With the absence of marine magnetic anomalies, observational data need to be gathered from terrestrial rocks, notably those formed within cratonic nuclei, the oldest and most stable parts of continents. To answer the call for a concise and comprehensive compilation of paleomagnetic data from the early history of the Earth, this dissertation introduces a unique database of over 3300 Precambrian paleomagnetic observations worldwide. The data are freely available at the server of the University of Helsinki (http://h175.it.helsinki.fi/database) and can be accessed via an online query form. All database entries have been coded according to their terranes, rock formation names, ages, rock types and paleomagnetic reliabilities. A new modified version of the commonly applied Van der Voo (MV) classification criteria for filtering the paleomagnetic data is also presented, along with a novel method for binning the entries cratonically to revise the previously employed way of applying binning via a simple evenly spaced geographic grid. Besides compiling data, tests of the validity of the GAD hypothesis in the Precambrian have been conducted using inclination frequency analysis and asymmetries of magnetic field reversals. Results from two self-contained tests of the GAD hypothesis suggest that the time-averaged Precambrian geomagnetic field may include the geocentric axial quadrupole and the geocentric axial octupole, but both with strengths less than 10% of the geocentric axial dipole, with the quadrupole perhaps being smaller than the octupole. In no other study a model so close to GAD has been reasonably fitted to the Precambrian paleomagnetic data. The weakness of the non-dipolar coefficients required also implies that no substantial adjustments need to be made to the novel models of Precambrian continental assemblies (supercontinents), such as the Paleo-Mesoproterozoic Columbia (Nuna) or the Neoproterozoic Rodinia. Although the supercontinent science still has plenty of uncertainty, it is more plausibly caused by the geological incoherence of the data and the lack of precise age information rather than by long-lived non-dipolar geomagnetic fields. Paleomagnetismi on viimeisen puolen vuosisadan aikana kehittynyt Maan muinaisen magneettikentän tutkimukseen keskittynyt tieteenala. Sitä voidaan soveltaa paitsi magneettikentän suuntien ja voimakkuuden laskentaan, myös mannerliikkeiden mallintamiseen, Maan syvärakenteen analysointiin ja jopa ilmastohistorian tutkimiseen. Paleomagneettisten havaintojen määrän ja laadun kasvun myötä on tullut myös mahdolliseksi koostaa malleja useiden mannerten muodostamista kokonaisuuksista eli ns. supermantereista. Niistä tunnetuimmat ovat Pangaea sekä sitä edeltävän ajan Rodinia ja Columbia. Paleomagneettinen menetelmä on pitkään nojannut oletukseen, jonka mukaisesti Maan magneettikentän pitkän aikavälin keskiarvoa voidaan riittävällä tarkkuudella kuvata pyörimisakselin suuntaisella dipolikentällä, jonka keskipiste yhtyy Maan keskipisteeseen. Tämän ns.keskeisdipolihypoteesin (GAD = Geocentric Axial Dipole) pätevyys on varmimmin kyetty osoittamaan viimeisten 400 vuosimiljoonan ajalle. Sitä varhaisemman ajan magneettikentän analysointia on pitkään haitannut havaintojen keskimääräisen laadun heikkeneminen geologisen ajan funktiona. Koska merenpohjan magneettiset anomaliat antavat tietoa geomagneettisesta kentästä vain noin 200 vuosimiljoonan taakse, yli 540 vuosimiljoonan takaisen prekambriajan paleomagneettinen data rajoittuu maanpäällisiin kiviin. Näistä erityisen käyttökelpoisia ovat mannerten sisäosissa sijaitsevien geologisesti stabiilien kratonien kivet. Tarve kattavalle ja helposti saatavilla olevalle Maan prekambrisen magneettikentän havaintotietokannalle johti Globaalin paleomagneettisen tietokannan (GPMDB = Global Paleomagnetic Database) kehittämiseen. Tässä väitöskirjassa on laadittu uusi yli 3300 havaintoa sisältävä PALEOMAGIA-niminen tietokanta, joka Globaalista paleomagneettisesta tietokannasta poiketen sisältää runsaasti vuoden 2004 jälkeen julkaistua aineistoa ja antaa käyttäjälle mahdollisuuden suodattaa havaintodataa laatukriteerien perusteella. Tietokannan aineisto on vapaasti saatavilla osoitteessa http://h175.it.helsinki.fi/database. PALEOMAGIA-tietokantaa on tässä väitöskirjassa sovellettu Maan magneettikentän keskeisdipolihypoteesin tutkimiseen kentän inklinaatiokomponentin tiheysjakaumaa ja kentän napaisuuskäännösten epäsymmetriaa hyödyntäen. Lisäksi väitöstyössä on esitetty uusi Maan muinaiseen geologiaan perustuva menetelmä prekambriajan havaintoaineiston alueellisen keskiarvoistuksen tekemistä varten. Saatujen tulosten nojalla on myös arvioitu tavallisimpien supermannermallien pätevyyttä. Väitöstyön tärkein johtopäätös kumoaa aiemmin esitetyt epäilykset Maan magneettikentän keskeisdipolimallin pätemättömyydestä prekambriaikana. Keskeisdipolin ohella kentän aikakeskiarvon kuvaamiseen tarvittavat kvadrupoli- ja oktupolikomponentit ovat voimakkuudeltaan alle 10 % keskeisdipolin voimakkuudesta, eivätkä ne vaikuta merkittävästi mannerten keskinäisiin sijainteihin supermannermalleissa. Mallien koostamista kuitenkin vaikeuttavat edelleen suuresti havaintoaineiston geologiset rajoitteet ja täsmällisen ikäinformaation puute.

Published

2014

160. Geochemistry and Sm-Nd isotopic signature of the 0.76 ga Burin Group: a compositional equivalent of the basement for late Neoproterozoic Avalonian magmatism?

Author

MURPHY, J. BRENDAN, MCCAUSLAND, PHIL J. A., O'BRIEN, SEAN J., PISAREVSKY, SERGEI, and HAMILTON, MICHAEL

Subjects

*GEOCHEMISTRY, *SAMARIUM isotopes, *NEODYMIUM, *MAGMATISM

Abstract

The ca. 760 Ma Burin Group occurs in a 60 km long northeasterly-trending belt on the Burin Peninsula of southeastern Newfoundland and consists of low grade massive and pillowed basalts, abundant dykes and sills, with minor mafic pyroclastic rocks and limestone. The Burin Group preserves the oldest known magmatic event in the Avalon terrane, but its tectonic evolution and its relationship to the voluminous 635-570 Ma arc-related magmatism that typifies Avalonia is uncertain. Geochemical analyses confirm that the basalts are predominantly low-K tholeiites. They are characterized by high LIL/HFS, and display depletion to slight enrichment in LREE. Sm-Nd isotopic data reveal that most basalts have juvenile compositions, with εNd values similar to contemporaneous depleted mantle, indicating that high LIL/HFS was probably due to coeval subduction which contaminated the mantle source. Other basalts have lower εNd values, and the negative correlation of εNd with La/Sm, together with a positive correlation of εNd with 147Sm/144Nd suggest that their isotopic signatures have been modified by a Mesoproterozoic or older crust or sub-continental lithospheric mantle into which Burin Group mafic volcanics were emplaced. The isotopic signature of the Burin mafic rocks is similar to that inferred for the source of the main phase of Avalonian magmatism. These data, together with paleocontinental reconstructions for ca. 760 Ma, suggest that the Burin Group is a local representative of an ensimatic arcs within the peri-Rodinian ocean, possibly as a far-field response to the breakup of Rodinia. Vestiges of these arcs were accreted to the northern Gondwanan margin at about 650 Ma, and then recycled by subduction beneath that margin during the main ca. 635-570 Ma Avalonian event. Although its low metamorphic grade precludes it being the basement from which Avalonian magmas were extracted, the Burin Group may be representative of the geochemical and isotopic composition of that basement. [ABSTRACT FROM AUTHOR]

Published

2008

161. Petrology, geochronology, and tectonic implications of c. 500 Ma metamorphic and igneous rocks along the northern margin of the Central Asian Orogen (Olkhon terrane, Lake Baikal, Siberia).

Author

Gladkochub, Dmitry P., Donskaya, Tatiana V., Wingate, Michael T. D., Poller, Ulrike, Kröner, Alfred, Fedorovsky, Valentin S., Mazukabzov, Anatoliy M., Todt, Wolfgang, and Pisarevsky, Sergei A.

Subjects

*PETROLOGY, *GEOCHRONOMETRY, *METAMORPHIC rocks, *IGNEOUS rocks

Abstract

A significant portion of the continental crust of northern Eurasia is thought to have formed during the evolution of the Central Asian Orogenic Belt at the time of accretion of continental terranes and island arcs. Records of this event are well preserved within the Siberian craton–Central Asian Orogenic Belt transition zone in Lake Baikal region, particularly in the Olkhon terrane. Our results establish granulite-facies conditions for peak metamorphism in the Olkhon terrane, and indicate that the granulites were derived from island arc mafic volcanic rocks and back-arc basin sediments. Sensitive high-resolution ion microprobe dating of metamorphic zircons from two mafic granulites yielded 238U/206Pb ages of 507 ± 8 and 498 ± 7 Ma, and magmatic zircons from syntectonic syenite yielded an age of 495 ± 6 Ma. The main metamorphic event occurred at about 500 Ma, and was probably related to collision of the Barguzin microcontinent with the Siberian craton. Ages from 535 to 2750 Ma for detrital zircon cores in early Palaeozoic metasediments of the Olhkon terrane were obtained. Archaean ages of detrital zircons in such metasediments suggest that the Barguzin microcontinent was originally part of the Aldan Province of the Siberian craton that was detached in late Mesoproterozoic, and reattached to the craton during early Palaeozoic collision. [ABSTRACT FROM AUTHOR]

Published

2008

162. First Precambrian palaeomagnetic data from the Mawson Craton (East Antarctica) and tectonic implications.

Author

Liu Y, Li ZX, Pisarevsky SA, Kirscher U, Mitchell RN, Stark JC, Clark C, and Hand M

Abstract

A pilot palaeomagnetic study was conducted on the recently dated with in situ SHRIMP U-Pb method at 1134 ± 9 Ma (U-Pb, zircon and baddeleyite) Bunger Hills dykes of the Mawson Craton (East Antarctica). Of the six dykes sampled, three revealed meaningful results providing the first well-dated Mesoproterozoic palaeopole at 40.5°S, 150.1°E (A 95  = 20°) for the Mawson Craton. Discordance between this new pole and two roughly coeval poles from Dronning Maud Land and Coats Land (East Antarctica) demonstrates that these two terranes were not rigidly connected to the Mawson Craton ca. 1134 Ma. Comparison between the new pole and that of the broadly coeval Lakeview dolerite from the North Australian Craton supports the putative ~40° late Neoproterozoic relative rotation between the North Australian Craton and the combined South and West Australian cratons. A mean ca. 1134 Ma pole for the Proto-Australia Craton is calculated by combining our new pole and that of the Lakeview dolerite after restoring the 40° intracontinental rotation. A comparison of this mean pole with the roughly coeval Abitibi dykes pole from Laurentia confirms that the SWEAT reconstruction of Australia and Laurentia was not viable for ca. 1134 Ma.

Published

2018

163. Geological archive of the onset of plate tectonics.

Author

Cawood PA, Hawkesworth CJ, Pisarevsky SA, Dhuime B, Capitanio FA, and Nebel O

Abstract

Plate tectonics, involving a globally linked system of lateral motion of rigid surface plates, is a characteristic feature of our planet, but estimates of how long it has been the modus operandi of lithospheric formation and interactions range from the Hadean to the Neoproterozoic. In this paper, we review sedimentary, igneous and metamorphic proxies along with palaeomagnetic data to infer both the development of rigid lithospheric plates and their independent relative motion, and conclude that significant changes in Earth behaviour occurred in the mid- to late Archaean, between 3.2 Ga and 2.5 Ga. These data include: sedimentary rock associations inferred to have accumulated in passive continental margin settings, marking the onset of sea-floor spreading; the oldest foreland basin deposits associated with lithospheric convergence; a change from thin, new continental crust of mafic composition to thicker crust of intermediate composition, increased crustal reworking and the emplacement of potassic and peraluminous granites, indicating stabilization of the lithosphere; replacement of dome and keel structures in granite-greenstone terranes, which relate to vertical tectonics, by linear thrust imbricated belts; the commencement of temporally paired systems of intermediate and high dT/dP gradients, with the former interpreted to represent subduction to collisional settings and the latter representing possible hinterland back-arc settings or ocean plateau environments. Palaeomagnetic data from the Kaapvaal and Pilbara cratons for the interval 2780-2710 Ma and from the Superior, Kaapvaal and Kola-Karelia cratons for 2700-2440 Ma suggest significant relative movements. We consider these changes in the behaviour and character of the lithosphere to be consistent with a gestational transition from a non-plate tectonic mode, arguably with localized subduction, to the onset of sustained plate tectonics.This article is part of a discussion meeting issue 'Earth dynamics and the development of plate tectonics'., (© 2018 The Authors.)

Published

2018