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Geological Society, London, Special Publications; 1993; v. 74; p. 101-112;
DOI: 10.1144/GSL.SP.1993.074.01.08
© 1993 Geological Society of London

North and West Pakistan

Chemistry of chromite and associated phases from the Shangla ultramafic body in the Indus suture zone of Pakistan

Mohammad Arif1 & M. Qasim Jan

1 Department of Geology, University of Leicester, Leicester LE1 7RH, UK
NCE in Geology, University of Peshawar, Peshawar, Pakistan

The partly to wholly serpentinized ultramafic rocks of the Shangla area constitute the northern part of the Mingora ophiolitic melange which lies along the Main Mantle Thrust (MMT) zone between the Kohistan island arc and the Indo-Pakistan plate. These rocks contain disseminated grains and massive bodies of segregated chromite. Field, textural, and chemical characteristics of the segregated chromite closely resemble those of podiform chromite deposits. The chemical composition of the chromite varies considerably from sample to sample with modal proportion, from grain to grain in the domain of a thin section, and from core to margin within individual grains. In general, the segregated chromites are richer in Cr and Mg, but poorer in Fe, Al and Mn than the accessory chromites. The inter- and intragranular chemical variations are much greater and more common in the case of accessory chromite due probably to a greater degree of subsolidus re-equilibration with the associated abundant silicate matrix. The intragranular variation, probably a result of alteration, mostly involves enrichment in Fe, Mn (and Ti), and depletion in Al, Mg and Cr, leading to the development of ferritchromit and, rarely, magnetite along fractures and margins of individual grains.

The studied rocks from the Shangla area display cumulus textures but contain abnormally magnesian olivine (Fo96.0–98.5). The 100Cr/(Cr + Al) ratios of their chromite suggest a complex origin. These rocks may have formed under conditions transitional between those of arc and oceanic settings. The Shangla rocks underwent a low- to ?medium-grade metamorphism as indicated by the development of talc and antigorite. This prograde metamorphic process probably also accounted for the extreme chemical zoning of the Shangla chromite.





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[Abstract] [PDF]