scholarly journals Crustal rejuvenation stabilised Earth’s first cratons

2021 ◽  
Vol 12 (1) ◽  
Author(s):  
Jacob A. Mulder ◽  
Oliver Nebel ◽  
Nicholas J. Gardiner ◽  
Peter A. Cawood ◽  
Ashlea N. Wainwright ◽  
...  
Keyword(s):  
Source Material ◽  
Yilgarn Craton ◽  
Magmatic Source ◽  
Isotope Data ◽  
Depleted Mantle

AbstractThe formation of stable, evolved (silica-rich) crust was essential in constructing Earth’s first cratons, the ancient nuclei of continents. Eoarchaean (4000–3600 million years ago, Ma) evolved crust occurs on most continents, yet evidence for older, Hadean evolved crust is mostly limited to rare Hadean zircons recycled into younger rocks. Resolving why the preserved volume of evolved crust increased in the Eoarchaean is key to understanding how the first cratons stabilised. Here we report new zircon uranium-lead and hafnium isotope data from the Yilgarn Craton, Australia, which provides an extensive record of Hadean–Eoarchaean evolved magmatism. These data reveal that the first stable, evolved rocks in the Yilgarn Craton formed during an influx of juvenile (recently extracted from the mantle) magmatic source material into the craton. The concurrent shift to juvenile sources and onset of crustal preservation links craton stabilisation to the accumulation of enduring rafts of buoyant, melt-depleted mantle.

Geochronology and Lu-Hf isotopic study of the granodioritic pulse in the Qaradagh batholith (NW Iran)

2020 ◽  
Author(s):  
Vartan Simmonds ◽  
Mohssen Moazzen ◽  
Gültekin Topuz ◽  
Ali Mohammadi
Keyword(s):  
Middle Eocene ◽  
Main Body ◽  
Isotopic Study ◽  
Quartz Syenite ◽  
Magmatic Source ◽  
Nw Iran ◽  
The North ◽  
Magmatic Rocks ◽  
Depleted Mantle ◽  
Northwest Iran

<p>The Qaradagh batholith in northwest Iran mainly comprises granodioritic rocks, which makes more than 50% of the batholith. This lithology is the first intrusive pulse within this batholith and the oldest Tertiary magmatism in the region, though other younger pulses of granite, diorite, quartz-diorite, syenite, quartz-syenite, monzonite, quartz-monzonite, quartz monzodiorite, monzogranite and gabbro intruded the main body. These magmatic rocks have intruded the Upper Cretaceous and Paleogene sedimentary, volcano-sedimentary and igneous rocks.</p><p>The Qaradagh batholith hosts vein-type and some local stock-work type Cu–Au–Mo mineralization, especially in its central parts, while skarn-type deposits have been formed at its contacts with peripheral carbonate rocks. Its extension towards the north into the neighboring south Armenia (which is part of the South Armenian Block) is known as the Meghri–Ordubad pluton (MOP), which hosts several large porphyry Cu–Mo deposits and other precious and base metal mineralizations. U–Pb geochronology on the zircons separated from the granodioritic unit yielded a weighted <sup>206</sup>Pb/<sup>238</sup>U mean age of 43.81 ± 0.18 (MSWD=1.38) and a Pb*/U concordia age of 44.04 ± 1.00 Ma (MSWD= 24), which correspond to Middle Eocene.</p><p>Since the Qaradagh batholith and especially its earliest magmatic phase are considered as the oldest plutonic event of the Cenozoic age in northwest Iran, thus this investigation testifies to the fact that intrusive activities of Tertiary in this region has commenced in Middle Eocene, contrary to the opinion of the majority of authors who believe that plutonism in this region occurred during Oligocene.</p><p>However, this age is much older than the molybdenite Re–Os ages of quartz-sulfide veins hosted by granodioritic rocks (25.19 ± 0.19 to 31.22 ± 0.28 Ma), indicating that mineralization in this batholith is related to another much younger intrusive phase, and even to several phases, as the published ages of molybdenites from various veins and mineralized zones show a large interval. Comparing the obtained age with those from the MOP in southern Armenia indicate that southern part of the MOP is almost coeval with the emplacement of the granodioritic rocks in Qaradagh batholith.</p><p>The U and Th contents of the zircons range from 17.1 to 1534.0 and from 4.9 to 641.0 ppm, respectively, with Th/U ratios between 0.66 and 5.82 (mean of 1.26), indicating a magmatic source. Meanwhile, the εHf<sub>(t) </sub>values of the zircons range from 8.7 to 11.1 with the mean of 9.5, which are plotted between the CHUR and the Depleted Mantle evolution lines, indicating a juvenile and homogeneous magmatic source and the predominance of mantle-derived magmas with limited crustal assimilation.</p>

Resolving the Hf-Nd paradox of early Earth crust-mantle evolution

2020 ◽  
Author(s):  
Jeff Vervoort ◽  
Chris Fisher ◽  
Ross Salerno
Keyword(s):  
Isotope Composition ◽  
Hf Isotope ◽  
Early Earth ◽  
Bulk Rock ◽  
Nd Isotope ◽  
Isotope Data ◽  
Depleted Mantle ◽  
Isotope Record ◽  
Mantle Reservoir ◽  
Isotope System

<p>One of the fundamental tenets of geochemistry is that the Earth’s crust has been extracted from the mantle creating a crustal reservoir enriched—and a mantle depleted—in incompatible elements. The Hf-Nd isotope record has long been used to help understand the timing of this process. Increasingly, however, it has become apparent that these two isotope records do not agree for Earth’s oldest rocks. Hf isotopes of zircon from juvenile, nominally mantle-derived rocks throughout the Eoarchean have broadly chondritic initial isotope compositions and indicate large-scale development of the depleted mantle reservoir started no earlier than ~ 3.8 Ga. In contrast, the long-lived Sm-Nd isotope record shows large variation in Nd isotope compositions. Most notably, Paleo- and Eoarchean terranes with chondritic initial Hf isotope compositions have significantly radiogenic Nd isotope compositions indicative of the development of a widespread depleted mantle reservoir very early in Earth’s history which, by extension, requires extraction of significant volumes of enriched crust. These two isotope systems, therefore, indicate two fundamentally different scenarios for the early Earth and has been called the Hf-Nd paradox. However, an important unresolved question remains: Do these records represent primary isotopic signatures or have they been altered by subsequent thermomagmatic processes? We have been able to provide clarity in the Hf isotope record by analyzing zircon from Eo- and Paleoarchean magmatic rocks by determining its U-Pb crystallization age and linking this to its corresponding Hf isotope composition. We can do this unambiguously—even in complex polymetamorphic gneisses—with the laser ablation split stream (LASS) technique whereby we determine U-Pb age and Hf isotope composition simultaneously in a single zircon volume. The existing Nd isotope data, in contrast, are all from bulk-rock analyses. These analyses are potentially problematic in old, polymetamorphic rocks because of the inability to link the measured isotopic composition to a specific age. In addition, the REE budget in these rocks is hosted by accessory phases that can be easily mobilized during later metamorphic and magmatic events. We can now use the LASS approach in REE rich phases (e.g., monazite, titanite, allanite, apatite) to determine U-Pb age and Nd isotope composition in a single analytical volume. New Nd isotope data from the Acasta Gneiss Complex (Fisher et al., EPSL, 2020) show that REE-rich accessory phases are not in isotopic equilibrium with their bulk rock compositions and clearly demonstrate mobilization after initial magmatic crystallization. This post-magmatic open-system behavior may well explain the disagreement in the Hf-Nd isotope record in high-grade polymetamorphic terranes like Acasta. In less complicated, lower-grade rocks, such as in the Pilbara terrane, these REE-rich phases yield consistent U-Pb and Sm-Nd age and isotope compositions indicating that the Nd isotope system in these rocks has remained closed since formation. Of particular note, in the Pilbara samples, the Hf and Nd isotope systems have consistent, broadly chondritic, initial Hf and Nd isotope compositions. In these less-complicated samples, where the Sm-Nd isotope system has remained closed, the Hf and Nd isotope systems agree and there is no Hf-Nd paradox.</p>

Late Proterozoic arc–continent and continent–continent collision in the pan-African trans-Saharan belt of Mali

1989 ◽  
Vol 26 (6) ◽  
pp. 1136-1146 ◽  
Author(s):  
Renaud Caby ◽  
Uranie Andreopoulos-Renaud ◽  
Christian Pin
Keyword(s):  
Isotopic Composition ◽  
Sedimentary Rocks ◽  
Volcanic Arc ◽  
Zircon Age ◽  
Magmatic Source ◽  
Magmatic Arc ◽  
Isotopic Compositions ◽  
Pan African ◽  
Depleted Mantle ◽  
Grey Gneiss

The Tilemsi magmatic arc, preserved along the suture zone of the pan-African trans-Saharan belt of northern Mali, crops out as a series of northeast- to north-northeast-trending strips along the Tilemsi Mesozoic trough and is about 100 km in width. The volcanic arc series includes pillowed metabasalts of tholeiitic character and associated with rhyodacites. Overlying sedimentary rocks are turbiditic volcanic greywackes. They are progressively recrystallized into grey gneiss in the vicinity of gabbro-noritic and dioritic intrusions. U/Pb zircon dating of a crosscutting metaquartz diorite gives a nearly concordant age of [Formula: see text], while that of a plagiogranite mobilizate associated with the grey gneiss is [Formula: see text]. Initial Nd and Sr isotopic compositions of two metaquartz diorites (εNd730 = +6.6, +6.3; (87Sr/86Sr)i = 0.7024) are in a agreement with a depleted mantle source similar to modern intraoceanic arcs. Isotopic compositions of two Tilemsi metagreywackes (εNd730 = +5.8, +4.3; 87Sr/86Sr ≈ 0.7027) exclude any significant derivation from an older sialic source and support the ensimatic origin of the magmatic arc. A U/Pb zircon age of 635 ± 5 Ma has also been obtained on a pretectonic granodiorite batholith at the eastern margin of the arc. Isotopic composition of this intrusion (εNdi = −6.0, −6.4; (87Sr/86Sr)i = 0.7046) illustrates the lack of a genetic link between the 730 Ma old, mantle-derived magmas and these granitoids, which originated from a crustal reservoir. This change in magmatic source is interpreted as the result of accretion of the ensimatic arc along the eastern continent, preceding continent–continent collision during the pan-African event.

Melting of the mantle past and present: isotope and trace element evidence

1978 ◽  
Vol 288 (1355) ◽  
pp. 547-559 ◽  
Keyword(s):  
Trace Elements ◽  
Trace Element ◽  
Internal Heat ◽  
Oceanic Lithosphere ◽  
Pb Isotope ◽  
Transfer Event ◽  
Isotope Data ◽  
Source Regions ◽  
Depleted Mantle ◽  
Ocean Ridge

Estimates are made of the abundances of some lithophile trace elements, particularly heat-producing elements, in the bulk Earth. The applicability of abundance estimates based on extra-terrestrial analogues, and terrestrial heat flow data are discussed. Sr, Nd and Pb isotope data are briefly reviewed and used to identify basalt source regions in the mantle which have been depleted or enriched in these and other lithophile trace elements. An assessment is made of the role of silicate liquid transfer in the production of depleted mantle. The timing of the transfer event(s) can be constrained using Rb-Sr, Sm-Nd and U-Pb isotope data and cover the period of Earth history during which granitic crust has been stabilized. Calculations of the heat production in the source regions of mid-ocean ridge and other basalts suggest that the convective processes involved in the generation of oceanic lithosphere are driven mainly by heating from beneath, as the internal heat generation is comparatively small. Trace element data from Archaean to Recent volcanics are used to estimate maximum limits on the amount of mantle melting which has occurred in the last 3.5 Ga.

scholarly journals δ13C Measurements from the Irish Oak Chronology

Radiocarbon ◽  
1994 ◽  
Vol 36 (1) ◽  
pp. 27-35 ◽  
Author(s):  
F. G. McCormac ◽  
M. G. L. Baillie ◽  
J. R. Pilcher ◽  
D. M. Brown ◽  
S. T. Hoper
Keyword(s):  
Stable Isotopes ◽  
Stable Isotope ◽  
Calibration Curve ◽  
Preliminary Analysis ◽  
Isotope Ratio ◽  
Stable Isotope Ratio ◽  
Source Material ◽  
Isotope Data ◽  
Stable Isotope Data

Measurements of the stable isotope ratio 13C/12C, relative to PDB, were made for fractionation correction purposes on all oak samples used in the Irish oak 14C calibration curve. Stable isotope data have not been published previously. We have collated the stable isotope data from the calibration work, carried out some further measurements to investigate anomalies in the original results, and generated tables of data that include site and tree information pertaining to both stable isotopes and source material for 14C calibration measurements. The data suggest that land-grown trees tend to be isotopically lighter than bog-grown wood, and that the Irish trees used in the calibration exercise tend to be isotopically heavier than those from Scotland and England. Preliminary analysis of the data is given.

Charles Williams’s Arthuriad: Mythic Vision and the Possibilities of Belief

2011 ◽  
Vol 1 (1) ◽  
pp. 33-46
Author(s):  
J. G. Bradbury
Keyword(s):  
Religious Faith ◽  
Source Material ◽  
Modern World ◽  
Christian Belief ◽  
Devotional Poetry ◽  
Religious Worldview ◽  
Intellectual Milieu ◽  
Charles Williams ◽  
Narrative Mode ◽  
Intellectual Environment

This essay explores Charles Williams’s use of the Arthurian myth to sustain a religious worldview in the aftermath of sustained attacks on the relevance and veracity of Christian belief in the early twentieth century. The premise to be explored is that key developments in science and philosophy made during the nineteenth and early twentieth centuries resulted in a cultural and intellectual milieu in which assertions of religious faith became increasingly difficult. In literary terms this became evident in, amongst other things, the significant reduction in the production of devotional poetry. By the late 1930s the intellectual environment was such that Charles Williams, a man of profound religious belief who might otherwise have been expected to produce devotional work, turned to a much older mode, that of myth, that had taken on new relevance in the modern world. Williams’s use of this mode allowed him the possibility of expressing a singularly Christian vision to a world in which such vision was in danger of becoming anathema. This essay examines the way in which Williams’s lexis, verse structure, and narrative mode builds on his Arthurian source material to allow for an appreciation of religiously-informed ideas in the modern world.

A Structured Method for the Recognition of Complex Historical Tables

1997 ◽  
Vol 9 (1-3) ◽  
pp. 58-77
Author(s):  
Vitaly Kliatskine ◽  
Eugene Shchepin ◽  
Gunnar Thorvaldsen ◽  
Konstantin Zingerman ◽  
Valery Lazarev
Keyword(s):  
Nineteenth Century ◽  
Character Recognition ◽  
Optical Character Recognition ◽  
Complex Structure ◽  
Source Material ◽  
Historical Sources ◽  
Tax Assessment ◽  
Optical Character ◽  
Algorithmic Model ◽  
Machine Readable

In principle, printed source material should be made machine-readable with systems for Optical Character Recognition, rather than being typed once more. Offthe-shelf commercial OCR programs tend, however, to be inadequate for lists with a complex layout. The tax assessment lists that assess most nineteenth century farms in Norway, constitute one example among a series of valuable sources which can only be interpreted successfully with specially designed OCR software. This paper considers the problems involved in the recognition of material with a complex table structure, outlining a new algorithmic model based on ‘linked hierarchies’. Within the scope of this model, a variety of tables and layouts can be described and recognized. The ‘linked hierarchies’ model has been implemented in the ‘CRIPT’ OCR software system, which successfully reads tables with a complex structure from several different historical sources.

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