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  • 1
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    Alkaline Igneous Rocks (1987)
    Oxford, London, Edinburgh, Boston, Palo Alto, Melbourne : Blackwell : Blackwell Scientific Publications
    Details
    Keywords: Eruptivgestein ; basisches Ergussgestein ; Alkaligestein ; Gesteinskunde ; Magmatismus
    Description / Table of Contents: J. G. Fitton and B. G. J. Upton: Introduction / Geological Society, London, Special Publications, 30:ix-xiv, doi:10.1144/GSL.SP.1987.030.01.01 --- D. K. Bailey: Mantle metasomatism—perspective and prospect / Geological Society, London, Special Publications, 30:1-13, doi:10.1144/GSL.SP.1987.030.01.02 --- Martin Menzies: Alkaline rocks and their inclusions: a window on the Earth’s interior / Geological Society, London, Special Publications, 30:15-27, doi:10.1144/GSL.SP.1987.030.01.03 --- A. D. Edgar: The genesis of alkaline magmas with emphasis on their source regions: inferences from experimental studies / Geological Society, London, Special Publications, 30:29-52, doi:10.1144/GSL.SP.1987.030.01.04 --- M. J. Le Bas: Nephelinites and carbonatites / Geological Society, London, Special Publications, 30:53-83, doi:10.1144/GSL.SP.1987.030.01.05 --- James D. Twyman and John Gittins: Alkalic carbonatite magmas: parental or derivative? / Geological Society, London, Special Publications, 30:85-94, doi:10.1144/GSL.SP.1987.030.01.06 --- J. B. Dawson: The kimberlite clan: relationship with olivine and leucite lamproites, and inferences for upper-mantle metasomatism / Geological Society, London, Special Publications, 30:95-101, doi:10.1144/GSL.SP.1987.030.01.07 --- Steven C. Bergman: Lamproites and other potassium-rich igneous rocks: a review of their occurrence, mineralogy and geochemistry / Geological Society, London, Special Publications, 30:103-190, doi:10.1144/GSL.SP.1987.030.01.08 --- Nicholas M.S. Rock: The nature and origin of lamprophyres: an overview / Geological Society, London, Special Publications, 30:191-226, doi:10.1144/GSL.SP.1987.030.01.09 --- David A. Clague: Hawaiian alkaline volcanism / Geological Society, London, Special Publications, 30:227-252, doi:10.1144/GSL.SP.1987.030.01.10 --- Barry L. Weaver, David A. Wood, John Tarney, and Jean Louis Joron: Geochemistry of ocean island basalts from the South Atlantic: Ascension, Bouvet, St. Helena, Gough and Tristan da Cunha / Geological Society, London, Special Publications, 30:253-267, doi:10.1144/GSL.SP.1987.030.01.11 --- Chris Harris and Simon M.F. Sheppard: Magma and fluid evolution in the lavas and associated granite xenoliths of Ascension Island / Geological Society, London, Special Publications, 30:269-272, doi:10.1144/GSL.SP.1987.030.01.12 --- J. G. Fitton: The Cameroon line, West Africa: a comparison between oceanic and continental alkaline volcanism / Geological Society, London, Special Publications, 30:273-291, doi:10.1144/GSL.SP.1987.030.01.13 --- B.H. Baker: Outline of the petrology of the Kenya rift alkaline province / Geological Society, London, Special Publications, 30:293-311, doi:10.1144/GSL.SP.1987.030.01.14 --- R. Macdonald: Quaternary peralkaline silicic rocks and caldera volcanoes of Kenya / Geological Society, London, Special Publications, 30:313-333, doi:10.1144/GSL.SP.1987.030.01.15 --- A. R. Woolley and G. C. Jones: The petrochemistry of the northern part of the Chilwa alkaline province, Malawi / Geological Society, London, Special Publications, 30:335-355, doi:10.1144/GSL.SP.1987.030.01.16 --- P. Bowden, R. Black, R. F. Martin, E. C. Ike, J. A. Kinnaird, and R. A. Batchelor: Niger-Nigerian alkaline ring complexes: a classic example of African Phanerozoic anorogenic mid-plate magmatism / Geological Society, London, Special Publications, 30:357-379, doi:10.1144/GSL.SP.1987.030.01.17 --- J. P. Liégeois and R. Black: Alkaline magmatism subsequent to collision in the Pan-African belt of the Adrar des Iforas (Mali) / Geological Society, London, Special Publications, 30:381-401, doi:10.1144/GSL.SP.1987.030.01.18 --- C. J. N. Fletcher and B. Beddoe-Stephens: The petrology, chemistry and crystallization history of the Velasco alkaline province, eastern Bolivia / Geological Society, London, Special Publications, 30:403-413, doi:10.1144/GSL.SP.1987.030.01.19 --- Daniel S. Barker: Tertiary alkaline magmatism in Trans-Pecos Texas / Geological Society, London, Special Publications, 30:415-431, doi:10.1144/GSL.SP.1987.030.01.20 --- G. Nelson Eby: The Monteregian Hills and White Mountain alkaline igneous provinces, eastern North America / Geological Society, London, Special Publications, 30:433-447, doi:10.1144/GSL.SP.1987.030.01.21 --- B.G.J. Upton and C.H. Emeleus: Mid-Proterozoic alkaline magmatism in southern Greenland: the Gardar province / Geological Society, London, Special Publications, 30:449-471, doi:10.1144/GSL.SP.1987.030.01.22 --- Lotte Melchior Larsen and Henning Sørensen: The Ilímaussaq intrusion—progressive crystallization and formation of layering in an agpaitic magma / Geological Society, London, Special Publications, 30:473-488, doi:10.1144/GSL.SP.1987.030.01.23 --- T. F. D. Nielsen: Tertiary alkaline magmatism in East Greenland: a review / Geological Society, London, Special Publications, 30:489-515, doi:10.1144/GSL.SP.1987.030.01.24 --- Hilary Downes: Tertiary and Quaternary volcanism in the Massif Central, France / Geological Society, London, Special Publications, 30:517-530, doi:10.1144/GSL.SP.1987.030.01.25 --- L. N. Kogarko: Alkaline rocks of the eastern part of the Baltic Shield (Kola Peninsula) / Geological Society, London, Special Publications, 30:531-544, doi:10.1144/GSL.SP.1987.030.01.26
    Pages: Online-Ressource (XIV, 568 Seiten) , Illustrationen, Diagramme, Karten
    ISBN: 0632016167
    URL: https://sp.lyellcollection.org/content/30/1
    Language: English
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  • 2
    Electronic Resource
    Electronic Resource
    Comparison of Major and Trace Element Analyses by ICP, XRF, INAA and ID Methods (1989)
    Oxford, UK : Blackwell Publishing Ltd
    Geostandards and geoanalytical research 13 (1989), S. 0 
    Details
    ISSN: 1751-908X
    Source: Blackwell Publishing Journal Backfiles 1879-2005
    Topics: Geosciences
    Notes: Element concentration data for a set of silicate igneous rocks have been determined by four independent analytical methods: inductivelycoupled plasma emission spectroscopy (ICP), instrumental neutron activation analysis (INAA), x-ray fluorescence (XRF), and isotope dilution mass spectrometry (ID). The results show excellent agreement among elements determined by more than one technique, and demonstrate the suitability of commercially available ICP instrumentation for the routine analysis of geologic material compared to other standard methods.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1111/j.1751-908X.1989.tb00840.x
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  • 3
    Electronic Resource
    Electronic Resource
    The petrology of the Ditrau alkaline complex, Eastern Carpathians (2000)
    Springer
    Mineralogy and petrology 69 (2000), S. 227-265 
    Details
    ISSN: 1438-1168
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences
    Description / Table of Contents: Zusammenfassung ¶Petrologie des Alkali-Komplexes von Ditrau in den Ost-Karpaten Der Ditrau-Komplex im östlichen Transsylvanien, Rumänien, ist ein großer (ca. 18 km Durchmesser) mesozoischer Alkali-Komplex, der in einem extensionalen Umfeld im Zusammenhang mit dem Aufbrechen eines Kontinentalrandes entstanden ist. Es liegt eine bogenförmige, exzentrische Gruppe von Intrusionen vor, innerhalb derer der Fokus von West nach Ost gewandert ist. Während der Großteil des Komplexes aus salischen Gesteinen (Syeniten, Nephelin-Syeniten und Alkali Graniten) besteht, liegen auch intermediäre Gesteine (Monzonite, Monzodiorite und Alkali Diorite) vor, die in Alkaligabbros übergehen. Isolierte Massen von ultramafischen Gesteinen könnten Autolithe, die aus frühen Kumulaten abstammen, darstellen. Die ältesten Komponenten scheinen die ultramafischen, gabbroischen und dioritischen Gesteine des Nordwestens zu sein, während das große Gebiet von Nephelin-Syeniten im Osten des Komplexes das jüngste Intrusionsstadium darstellt. Ein Intervall mit Gang-Intrusion und verbreiteter hydrothermaler Umwandlung markiert das Ende dieser Aktivität. Gesteine von gegensätzlicher Zusammensetzung zeigen häufig komplizierte geometrische Beziehungen. Diejenigen zwischen mafischen (besondern alkaligabbroischen und dioritischen) Typen und salischen (Syeniten und Quarz-Syeniten) zeigen polsterartige Formen, die auf möglicherweise gleichzeitige Platznahme von mafischen und salischen Magmen hinweisen; dabei dürften die ersteren die letzteren intrudiert haben. Mischung, Mingling und Hybridisation ist in diesen polsterförmigen Assoziationen weit verbreitet. Olivin ist auf einige der ultramafischen Gesteine beschränkt. Die basischen Gesteine enthalten diopsidischen Pyroxen und Amphibole, die von Kaersutit über “ferroan” Pargasit zu Hastingsit übergehen, obwohl auch edenitische und aktinolitische Varietäten vorkommen. Titanit ist weit verbreitet und eine Hauptkomponente in einigen Typen der basischen Gesteine. Die Syenite bestehen aus sodischem Plagioklas, Alkali-Feldspat und Hastingsit, während Nephelin-Syenite, Alkali-Feldspat, Nephelin und Aeginin-Augit mit akzessorischem Cancrinit, Skapolith und Sodalit umfassen. Der Ditrau-Komplex dürfte aus primitiven basanitischen Magmen entstanden sein, die sich als “small-fraction” asthenosphärischer Schmelzen bildeten, mit progressiver Evolution bis hin zu phonolitischen Residuen. Fraktionierte Kristallisation dürfte Olivin und Spinell in den Frühstadien betroffen haben, gefolgt vom Auftreten des Klinopyroxen und Amphibol (wobei Olivin in den zunehmend wasserreichen Restschmelzen verlorengeht). Eine allgemeine Zunahme in Nb/Ta von basischen zu nephelinsyenitischen Zusammensetzungen wird auf Titanit-Fraktionierung zurückgeführt. Die Entwicklung in Richtung Silika-übersättigter Produkte geht auf krustale Assimilation und fraktionelle Kristallisation des basischen Magmas in einem relativ frühen Stadium der Entwicklung des Komplexes zurück. Ein allgemeiner Anstieg in δ18O mit zunehmendem SiO2 unterstützt diese Schlußfolgerung. Daten aus der breiten metamorphen Aureole des Komplexes, die Bedeutung der Amphibole und extensive Alteration im Spätstadium der Entwicklung vieler Gesteine (mit Bildung von Skapolith, Soldalit und Cancrinit) weist darauf hin, dass die Ditrau-Magmen sehr reich an volatilen Phasen waren. Die nach oben zu konkaven (Chondrit-normalisierten) SEE-Verteilungsmuster in den salischen Gesteinen dürften auf Mineralfraktionierung (Kaersuit, Titanit, Apatit) die vorzugsweise MSEE entfernt hat, Ansammlung von HSEE-reichen Phasen (Zirkon) und Wechselwirkungen mit späten Fluiden, die an HSEE angereichert waren, zurückgehen. Die intrusive Abfolge und die Wechselbeziehungen zwischen den basischen und salischen Gesteinen legt nahe, dass geschichtete Magmenkörper entstanden sind, wobei salische Schmelzen die dichteren basaltischen Schmelzen überlagert haben. Während der darauf folgenden Platznahme dürfte Magmamixing stattgefunden haben.
    Notes: Summary ¶The Ditrau complex in eastern Transsylvania, Romania is a large (ca. 18 km diameter) Mesozoic alkaline igneous complex generated in an extensional environment associated with a rifted continental margin. It comprises an eccentric arcuate suite of intrusions in which there was a generalised migration of focus from west to east. Whereas most of the complex consists of salic rocks (syenites, nepheline syenites and alkali granites) a spectrum of intermediate rock types (monzonites, monzodiorites and alkali diorites) grades to alkali gabbros. Isolated masses of ultramafic rocks may represent autoliths derived from early cumulates. The earliest components appear to be the ultramafic, gabbroic and dioritic rocks of the north-west whereas the large area of nepheline syenites in the east of the complex represents the youngest large-scale intrusive event. An interval of dyke intrusion and widespread hydrothermal alteration marked the end of activity. Rocks of contrasted composition commonly show intricate and complex geometric relationships. Those between mafic (especially alkali gabbroic and dioritic) facies and salic (syenite and quartz syenite) facies display pillowy forms suggesting synchronous emplacement of mafic and salic magmas with the former intruded into, and chilled against, the latter. Mixing, mingling and hybridisation in these pillowed associations has been widespread. Olivine is confined to some of the ultramafic rocks. The basic rocks contain diopsidic pyroxene and amphibole ranging from kaersutite through ferroan pargasite to hastingsite although edenitic and actinolitic varieties occur. Titanite is ubiquitous and is a major component in some facies of the basic rocks. The syenites consist of sodic plagioclase, alkali feldspar and hastingsite whereas the nepheline syenites comprise alkali feldspar, nepheline and aegirine-augite with accessory cancrinite, scapolite and sodalite. The complex is deduced to have been generated from primitive basanitic magmas, formed as small-fraction asthenospheric melts, with progressive evolution through to phonolitic residues. Fractional crystallisation is inferred to have involved olivine and spinel in the early stages, followed by the incoming of clinopyroxene and amphibole (with loss of olivine in increasingly hydrous residual melts). A generalised increase in Nb/Ta from basic to nepheline syenite compositions is ascribed to titanite fractionation. The divergence towards silica oversaturated products is attributed to crustal assimilation and concomitant fractional crystallisation of the basic magmas at a relatively early stage in the development of the complex. An overall rise in δ18O with increasing SiO2 supports this conclusion. Evidence from the broad metamorphic aureole around the complex, the importance of amphiboles and extensive late-stage alteration of many of the rocks (with formation of e.g. scapolite, sodalite and cancrinite), suggests that the Ditrau magmas were notably volatile-rich. Factors responsible for the upwardly concave (chondrite-normalised) REE patterns exhibited by the salic rocks may include fractionation of minerals (kaersuite, titanite, apatite) preferentially removing MREE, accumulation of HREE-rich phases (zircon) and interaction with late-stage fluids enriched in HREE. The intrusive sequence and the inter-relationships of the basic and salic rocks suggest that stratified magma bodies may have been generated, with salic melts overlying denser basaltic melts. Mixing is inferred to have taken place during subsequent emplacement.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/s007100070023
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  • 4
    Electronic Resource
    Electronic Resource
    1982 eruption of Mount Cameroon, West Africa (1983)
    [s.l.] : Nature Publishing Group
    Nature 306 (1983), S. 327-332 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] MOUNT Cameroon is a large (4,095 m) basanite composite volcano situated on the west African coast (Fig. 1) and is the only active member of the volcanic Cameroon line1,2. The earliest well-authenticated eruption occurred in April 1909 on the northern flank3,4 although earlier eruptions are reported ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/306327a0
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  • 5
    Electronic Resource
    Electronic Resource
    Petrochemistry of the volcanic rocks of the Island of Principe, Gulf of Guinea (1977)
    Springer
    Contributions to mineralogy and petrology 64 (1977), S. 257-272 
    Details
    ISSN: 1432-0967
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences
    Notes: Abstract Principe is one of the volcanic centres comprising the Cameroun line in West Africa. The volcanic rocks can be divided into two stratigraphic units: 1. Younger lava series — basanite and nephelinite overlying. 2. Older lava series — transitional to mildly alkaline basalt and hawaiite. These units lie on a basement of palagonite breccias of tholeiitic affinities. The basic lavas are intruded by plugs ranging in composition from tristanite to phonolite and are overlain by phonolite lavas. These rocks form two chemically and mineralogically distinct suites: 1. Phonolites which evolved by low pressure crystal fractionation of the younger lava series basanitic magma, and 2. Tristanite — trachyte — trachyphonolite suite which may have evolved by high pressure crystal fractionation of the older lava series magma.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00371757
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  • 6
    Electronic Resource
    Electronic Resource
    The genetic significance of almandine-pyrope phenocrysts in the calc-alkaline Borrowdale Volcanic Group, Northern England (1972)
    Springer
    Contributions to mineralogy and petrology 36 (1972), S. 231-248 
    Details
    ISSN: 1432-0967
    Source: Springer Online Journal Archives 1860-2000
    Topics: Geosciences
    Notes: Abstract A suite of garnet-bearing andesites and dacites from the Ordovician of N. W. England is described and major- and trace-element analyses of the garnet phenocrysts are presented. The garnets are of almandine-pyrope composition, with minor amounts of spessartine and grossular, and often show marked reversed zoning; the crystal becoming progressively enriched in pyrope towards the margin. Garnets from the dacites are consistently richer in almandine and spessartine than are those from the andesites. From a consideration of the chemistry of the garnet phenocrysts and host rocks, especially La and Y abundances, it is shown that garnet could not have been removed from the magma in quantities sufficient to affect the liquid composition. Consequently the magma must have evolved by some process other than crystal fractionation. It is proposed that the magma was generated by the partial melting of oceanic crust along an ancient Benioff zone, stored at depth (possibly at the crust/mantle interface) long enough for garnet to nucleate, and then transferred rapidly to the surface. Isobaric crystallisation of the garnet phenocrysts at depth could explain the reversed zoning observed.
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1007/BF00371434
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  • 7
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    Carboniferous and Permian magmatism in Scotland (2007)
    In:  Geological Society Special Publication 223: 195-218.
    Details
    Publication Date: 2007-10-08
    Description: Extensional tectonics to the north of the Variscan Front during the Early Carboniferous generated fault-controlled basins across the British Isles, with accompanying basaltic magmatism. In Scotland Dinantian magmatism was dominantly mildly alkaline-transitional in composition. Tournaisian activity was followed by widespread Visean eruptions largely concentrated within the Scottish Midland Valley where the lava successions, dominantly of basaltic-hawaiitic composition, attained thicknesses of up to 1000 m. Changing stress fields in the late Visean coincided with a change in the nature of the igneous activity; subsequently, wholly basic magmatism persisted into the Silesian. As sedimentary basin fills increased, sill intrusion tended to dominate over lava extrusion. In the Late Carboniferous (Stephanian) a major melting episode, producing large volumes of tholeiitic magma, gave rise to a major dyke swarm and sills across northern England and Scotland. Alkali basaltic magmatism persisted into the Permian, possibly until as late as 250 Ma in Orkney. Geochemical data suggest that the Carboniferous-Permian magmas were dominantly of asthenospheric origin, derived from variable degrees of partial melting of a heterogeneous mantle source; varying degrees of interaction with the lithosphere are indicated. Peridotite, pyroxenite and granulite-facies basic meta-igneous rocks entrained as xenoliths within the most primitive magmas provide evidence for metasomatism of the lithospheric mantle and high-pressure crystal fractionation.
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  • 8
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    Geochemical evolution of Dalradian metavolcanic rocks: implications for the break-up of the Rodinia supercontinent (2011)
    Geological Society of London
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    Publication Date: 2011-08-31
    Description: : Neoproterozoic basaltic magmatism in the Dalradian Supergroup of Scotland and Ireland was associated with the break-up of the Rodinia supercontinent. Magmas were erupted in rift-related basins along a strike length of at least 700 km and during a time period of c . 80 Ma. New major and trace element analyses of metabasalts from several formations are presented to trace the variations in magma compositions in time and space. The primary magmas resulted from variable degrees of mixing of melts derived from mantle sources similar to those of normal and enriched mid-ocean ridge basalts; some younger lavas also show evidence of contamination with continental crust. In contrast to speculations about magmatism elsewhere in Rodinia, the evidence here suggests that there was no involvement of a mantle plume in basalt generation. For example, the Scottish promontory of Laurentia drifted rapidly southwards through c . 25° over the duration of the magmatism, with no evidence of significant elevation above sea level, as might be expected from involvement of a plume. Generation of the primary magmas might have taken place predominantly through decompression melting in depleted upper mantle containing enriched streaks and blobs. Both the Dalradian lithostratigraphy and the metabasaltic compositions are consistent with extreme lithospheric stretching and possibly rupture during the earliest phase of magmatism, whereas generation of later magmatism appears to have been associated with major fault systems, possibly on a foundering continental margin. Supplementary material: Chemical analyses of Dalradian metavolcanic rocks (major elements recalculated to 100%, anhydrous) are available at www.geolsoc.org.uk/SUP18468 .
    Print ISSN: 0016-7649
    Topics: Geosciences
    Published by Geological Society of London
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  • 9
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    The origin of Earths first continents and the onset of plate tectonics (2016)
    Geological Society of America (GSA)
    In: Geology
    Details
    Publication Date: 2016-10-08
    Description: The growth and recycling of continental crust has resulted in the chemical and thermal modification of Earth’s mantle, hydrosphere, atmosphere, and biosphere for ~4.0 b.y. However, knowledge of the protolith that gave rise to the first continents and whether the environment of formation was a subduction zone still remains unknown. Here, tonalite melts are formed in high P - T experiments in which primitive oceanic plateau starting material is used as an analogue for Eoarchean (3.6–4.0 Ga) oceanic crust generated at early spreading centers. The tonalites are produced at 1.6–2.2 GPa and 900–950 °C and are mixed with slab-derived aqueous fluids to generate melts that have compositions identical to that of Eoarchean continental crust. Our data support the idea that the first continents formed at ca. 4 Ga and subsequently, through the subduction and partial melting of ~30–45-km-thick Eoarchean oceanic crust, modified Earth’s mantle and Eoarchean environments and ecosystems.
    Print ISSN: 0091-7613
    Electronic ISSN: 1943-2682
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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  • 10
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    The origin of Earths first continents and the onset of plate tectonics (2016)
    Geological Society of America (GSA)
    In: Geology
    Details
    Publication Date: 2016-10-14
    Description: The growth and recycling of continental crust has resulted in the chemical and thermal modification of Earth’s mantle, hydrosphere, atmosphere, and biosphere for ~4.0 b.y. However, knowledge of the protolith that gave rise to the first continents and whether the environment of formation was a subduction zone still remains unknown. Here, tonalite melts are formed in high P - T experiments in which primitive oceanic plateau starting material is used as an analogue for Eoarchean (3.6–4.0 Ga) oceanic crust generated at early spreading centers. The tonalites are produced at 1.6–2.2 GPa and 900–950 °C and are mixed with slab-derived aqueous fluids to generate melts that have compositions identical to that of Eoarchean continental crust. Our data support the idea that the first continents formed at ca. 4 Ga and subsequently, through the subduction and partial melting of ~30–45-km-thick Eoarchean oceanic crust, modified Earth’s mantle and Eoarchean environments and ecosystems.
    Print ISSN: 0091-7613
    Electronic ISSN: 1943-2682
    Topics: Geosciences
    Published by Geological Society of America (GSA)
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