222-15 Oxygen and Hydrogen Isotopic Study of the Iron Ore Group (IOG), a Mid Archean Eastern Indian Greenstone Belt

See more from this Division: General Discipline Sessions
See more from this Session: Geochemistry; Geochemistry, Organic

Tuesday, 7 October 2008: 11:30 AM
George R. Brown Convention Center, 320DE

Sandeep Banerjee1, Robert T. Gregory1, Asish R. Basu2, Ian Richards1 and Kurt Ferguson1, (1)Huffington Department of Earth Sciences, Southern Methodist University, Dallas, TX
(2)Department of Earth and Environmental Sciences, University of Rochester, Rochester, NY
Abstract:
The mid-Archean Iron Ore Group (IOG) in the type-area of the eastern Indian Singbhum-Orissa craton forms a NNE-SSW belt as an overturned synclinorium, sandwiched between the Singhbhum Granite to the east and the Bonai Granite to the west. The IOG sequence consists of lower basaltic-andesite followed successively upwards by lower shale, tuffs, banded iron ore, upper shale and upper lava. The metamorphic condition for the lower lava of the western limb is higher (lower amphibolite) than the lower lava of the eastern limb and the upper lava, where conditions range from zeolite to greenschist facies. Oxygen isotope analysis of 23 metaigneous rocks (0 ≤d18O≤ 10‰; mean 6.8‰) shows the lower lava and a single gabbro (-0.2‰) of the western limb (3.7 ≤d18O≤ 6.4‰; 7 lavas) to be depleted and the lower lava of the eastern limb (6.7 ≤d18O≤ 8.3‰; 6 samples) and the upper lava (6.9 ≤d18O≤ 10.1‰; 7 samples) are both enriched in 18O compared to the average mantle d18O value (5.7‰). The depletion in 18O of the western limb may be due to regional thermal metamorphism from the Bonai granite, and may not represent a complementary 18O-depleted oceanic crust as in the Phanerozoic. The d18O of clinopyroxene (1.6 ≤d18O ≤ 8‰) and feldspar (3.8 ≤d18O≤ 11.8‰) show a wide range of values. Assuming alteration temperature of 550°C, the calculated fluid d18O ranges between 3 to 11‰. This is either 18O-shifted ocean water or metamorphic water. Hydrogen isotopes of 20 samples (-80 ≤dD≤ -59‰) lie within the Phanerozoic dD ranges of similar rocks. Hydrogen and oxygen isotopic ratios show that the alteration of the greenstones was due to interaction with a modern seawater-type fluid, as seen in other Archean greenstone belts.

See more from this Division: General Discipline Sessions
See more from this Session: Geochemistry; Geochemistry, Organic

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