Tectonomagmatic evolution of the Bastar craton of Indian shield through plume-arc interaction: evidence from geochemistry of the mafic and felsic volcanic rocks of Sonakhan greenstone belt

The archaean greenstone belts, dominated by mafic to felsic volcanic rocks followed by younger granitic intrusions occurs associated with volcano-sedimentary sequences. The Dharwar Super group (2600 to 2900 Ma) of rocks in western Dharwar craton, underlie the older TTG gneisses. The Shimoga greenstone belt (SGB) of WDC constitute the basal polymictic conglomerate along with quartzite, pyroclastic rocks, carbonaceous rocks, greywacke-argillite sequences with a thick pile of mafic and felsic metavolcanic rocks (BADR). These rocks are suffered from greenschist to lower amphibolite grade of metamorphism. The Medur metavolcanic volcanic rocks give an age of 2638 &#177; 66 Ma (1), whereas the Daginakatte felsic volcanic rocks give an age of 2601 &#177; 6 Ma (2). The present studied age of 2638 &#177; 66 Ma, tells about the cessation of mafic magmatism in WDC. The metavolcanic rocks of the Medur formation are tholeiitic to calc-alkaline in nature. These rocks show flat to LREE enriched REE pattern with negative europium anomaly. And also show enrichment in LILE and depletion in HFSE elements with significant Nb-Ta anomaly. The geochemical and the isotope data suggest the involvement of partial melting of the depleted mantle by the slab components and assimilation fractional crystallization (AFC) processes for the magma generation. The SGB metavolcanic rocks have 143Nd/144Nd ratios (0.511150 to .513076) and &#949;Nd values of -3.1 to -5.5 and the negative &#949;Nd values &#160;for the rocks is due to the crustal contamination of the magma in a shallow marine subduction setting. The parental magmas were derived from melting in the mantle wedge fluxed by slab derived fluids and slab components followed by assimilation fractional crystallization (AFC) processes involving continental crust in an active continental margin.<ul><li>(1) Giri et al., 2019. Lithos, 330-331, 177-193</li> <li>(2) Trendall et al., 1997a. J. Geol. Soc. India, 50, 25-50.</li> </ul>

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U–Pb zircon ages for magmatism in the Red Lake greenstone belt, northwestern Ontario

Canadian Journal of Earth Sciences ◽

10.1139/e86-004 ◽

1986 ◽

Vol 23 (1) ◽

pp. 27-42 ◽

Cited By ~ 29

Author(s):

F. Corfu ◽

H. Wallace

Keyword(s):

Greenstone Belt ◽

Volcanic Rocks ◽

Gold Deposits ◽

Calc Alkaline ◽

Red Lake ◽

Northwestern Ontario ◽

Igneous Activity ◽

Felsic Volcanic ◽

Felsic Volcanic Rocks ◽

Chemical Sediments

U–Pb dating was carried out on nine volcanic rocks and two felsic intrusions from the Red Lake greenstone belt in order to establish an absolute time framework for the magmatic evolution of the area and yield first indications on the time of deformation and gold mineralization.The data indicate a protracted period of igneous activity spanning at least 270 Ma. Felsic volcanic rocks near the top of the tholeiitic to komatiitic sequence in the eastern part of the belt yield ages of [Formula: see text] and [Formula: see text]. A third unit, dated at [Formula: see text], contains inherited zircons older than 2982 Ma, which casts some uncertainty on the validity of the inferred intercept age. Rocks in the western part of the belt, previously believed to form a relatively young calc-alkalic sequence but now known to be dominantly tholeiitic, are shown to be relatively old, with ages of [Formula: see text] and [Formula: see text]. These two dates also bracket the age of stromatolites occurring in chemical sediments that are under and overlain by the dated units.Another volcanic horizon in the centre of the belt is dated at 2830 ± 15 Ma, and calc-alkaline volcanic sequences on the southern and northern flanks of the belt yield ages of 2739.0 ± 3.0 and [Formula: see text], respectively. An age of [Formula: see text] was determined for tholeiitic pyroclastic rocks near the base of the predominantly calc-alkaline Heyson sequence.The major gold deposits of the Red Lake belt appear to be present dominantly within older supracrustal sequences. On the other hand, they are also associated with late deformation zones that postdate the intrusion of the Dome Stock dated at 2718.2 ± 1.1 Ma ago. The time of an earlier folding event is bracketed by this age and by the age of [Formula: see text] for an isoclinally folded felsic dike.

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Neoarchaean felsic volcanic rocks from the Shimoga greenstone belt, Dharwar Craton, India: Geochemical fingerprints of crustal growth at an active continental margin

Precambrian Research ◽

10.1016/j.precamres.2014.06.014 ◽

2014 ◽

Vol 252 ◽

pp. 1-21 ◽

Cited By ~ 39

Author(s):

C. Manikyamba ◽

Abhishek Saha ◽

M. Santosh ◽

Sohini Ganguly ◽

M. Rajanikanta Singh ◽

...

Keyword(s):

Continental Margin ◽

Greenstone Belt ◽

Active Continental Margin ◽

Volcanic Rocks ◽

Dharwar Craton ◽

Crustal Growth ◽

Felsic Volcanic ◽

Felsic Volcanic Rocks

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U–Pb zircon ages for the Rice Lake area, southeastern Manitoba

Canadian Journal of Earth Sciences ◽

10.1139/e89-003 ◽

1989 ◽

Vol 26 (1) ◽

pp. 23-30 ◽

Cited By ~ 10

Author(s):

A. Turek ◽

R. Keller ◽

W. R. Van Schmus ◽

W. Weber

Keyword(s):

Greenstone Belt ◽

Volcanic Rocks ◽

Quartz Diorite ◽

Granitic Rocks ◽

Lake Area ◽

The South ◽

Metasedimentary Rocks ◽

The North ◽

Felsic Volcanic ◽

Felsic Volcanic Rocks

The Archean Rice Lake greenstone belt in southeastern Manitoba is made up of mafic to felsic volcanic rocks and associated intrusive and metasedimentary rocks. The belt is flanked to the north by the Wanipigow River granitic complex and to the south by the Manigotagan gneissic belt. The Ross River quartz diorite pluton is intrusive into the centre of the greenstone belt. U–Pb zircon ages indicate a major volcanic and plutonic event in the area at 2730 Ma. Ages for two volcanic units of the Rice Lake Group are 2731 ± 3 and 2729 ± 3 Ma. The Ross River pluton yields an age of 2728 ± 8 Ma and the Gunnar porphyry gives an age of 2731 ± 13 Ma; both intrude rocks of the Rice Lake Group. Granitic rocks of the Wanipigow River granitic complex give ages of 2731 ± 10 and 2880 ± 9 Ma, while a post-tectonic granite in the Manigotagan gneissic belt has an age of 2663 ± 7 Ma.

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3.51 Ga old felsic volcanic rocks and carbonaceous cherts from the Gorumahisani Greenstone Belt – Insights into the Palaeoarchaean record of the Singhbhum Craton, India

Precambrian Research ◽

10.1016/j.precamres.2021.106109 ◽

2021 ◽

Vol 357 ◽

pp. 106109

Author(s):

Jaganmoy Jodder ◽

Axel Hofmann ◽

Henriette Ueckermann

Keyword(s):

Greenstone Belt ◽

Volcanic Rocks ◽

Singhbhum Craton ◽

Felsic Volcanic ◽

Felsic Volcanic Rocks

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Geochemistry and Isotope Composition of Paleoproterozoic Granites and Felsic Volcanics of the Elash Graben: Evidence of the Heterogeneity of the Early Precambrian Crust

Russian Geology and Geophysics ◽

10.2113/rgg20204206 ◽

2021 ◽

Vol 62 (10) ◽

pp. 1175-1187

Author(s):

A.D. Nozhkin ◽

O.M. Turkina ◽

K.A. Savko

Keyword(s):

Isotope Composition ◽

Volcanic Rocks ◽

Rare Metal ◽

Temporal Association ◽

Metal Deposit ◽

Wide Range ◽

Rare Metal Deposit ◽

Geochronological Study ◽

Felsic Volcanic ◽

Felsic Volcanic Rocks

Abstract —The paper presents results of a petrogeochemical and isotope–geochronological study of the granite–leucogranite association of the Pavlov massif and felsic volcanics from the Elash graben (Biryusa block, southwest of the Siberian craton). A characteristic feature of the granite–leucogranites is their spatial and temporal association with vein aplites and pegmatites of the East Sayan rare-metal province. The U–Pb age of zircon from granites of the Pavlov massif (1852 ± 5 Ma) is close to the age of the pegmatites of the Vishnyakovskoe rare-metal deposit (1838 ± 3 Ma). The predominant biotite porphyritic granites and leucogranites of the Pavlov massif show variable alkali ratios (K2O/Na2O = 1.1–2.3) and ferroan (Fe*) index and a peraluminous composition; they are comparable with S-granites. The studied rhyolites of the Tagul River (SiO2 = 71–76%) show a low ferroan index, a high K2O/Na2O ratio (1.6–4.0), low (La/Yb)n values (4.3–10.5), and a clear Eu minimum (Eu/Eu* = 0.3–0.5); they are similar to highly fractionated I-granites. All coeval late Paleoproterozoic (1.88–1.85 Ga) granites and felsic volcanics of the Elash graben have distinct differences in composition, especially in the ferroan index and HREE contents, owing to variations in the source composition and melting conditions during their formation at postcollisions extension. The wide range of the isotope parameters of granites and felsic volcanic rocks (εNd from +2.0 to –3.7) and zircons (εHf from +3.0 to +0.8, granites of the Toporok massif) indicates the heterogeneity of the crustal basement of the Elash graben, which formed both in the Archean and in the Paleoproterozoic.

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