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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Charnockite formation in southern India

Jackson, David Hart January 1990 (has links)
A stepped heating gas extraction technique has been developed which is capable of isolating C02 released by fluid inclusions from that released by contamination and other sources. In some cases specific generations of inclusions may be extracted. This technique represents a significant advance in the measurement of carbon isotopes from fluid inclusions. Isotopic results are reproducible to ± 0.296 for gas-rich samples, but sample heterogeneity results in variable yield measurements (occasionally up to 200%). The technique has been applied to charnockites and related rocks from South India to constrain the role of C02 in their petrogenesis. Results from a data base of 65 samples show that charnocidtes released more inclusion-C02 than did associated amphibolite facies gneisses, implying that C02 plays a significant role in charnockite formation. Field observations and theoretical phase equilibria, suggest incipient charnockites (partially transformed gneiss) form by sub-solidus transformation (induced by influx of C02) and by melting (triggered by influx of mixed C02-H20). This melting reaction occurs at least 50°C below vapour-absent melting, so it may be an important mechanism for granulite and granite formation in the middle and lower crust. Massive charnockites (monotonous granulite) are believed to form mainly by direct crystallisation from a H20-poor, C02-rich melt. 513C values support radiogenic and field evidence for at least two charnockite formation events in South India. The 2500 Ga event at the southern margin of the Archxan Craton yields a range of 613C values (-4%o to -13%o), tentatively interpreted as C02 derived from subducting sediments. The younger event (500 Ma) affects the southern blocks (of probable early Proterozoic age), and is characterised by a bimodal distribution of 813C values (-6%o to -7%o and -9%o to -13%o). A sub-continental lithospheric source of C02 (transported by magmas associated with crustal extension) is suggested by the heavier values. The lighter isotopes result mainly from mixing between this mantle source and organic graphite, but inclusion capture during an earlier event cannot be ruled out in a few cases. C02-rich fluids are found to propagate by advective fluid flow through a microhydraulic fracture mechanism. A detailed case study of local charnockite formation indicates that isotope and reaction fronts are diffuse, almost over the entire distance of fluid flow (60 m), and fluid/rock disequilibrium suggests that fluid-rock ratios must be treated with care.

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