The Saurashtra region in the northwestern part of the Deccan continental flood basalt province (India) is notable for its many volcano-plutonic complexes, compositional diversity, and the abundance of rhyolite and granophyre. In this first detailed study of the Chogat-Chamardi subvolcanic complex in eastern Sau- rashtra, we report microgranite and granophyre plutons, gabbro plutons cut by basaltic andesite dykes, as well as rhyolite plugs. Bulk-rock geochemical (including Nd–Sr isotopic) data suggest a strong contribu- tion from ancient, Rb-rich basement crust to the silicic magmas. The mafic rocks are also crustally con- taminated but less than the silicic rocks, in conformity with observations elsewhere (e.g., the Skye and Skaergaard granophyres). The Chogat-Chamardi silicic rocks have initial 87Sr/86Sr (for t = 65 Ma) as high as 0.72914, and initial eNd values as low as -13.9. Trends defined by the Chogat-Chamardi and other Dec- can rhyolitic suites on plots of Sr concentration vs. Sr isotopic ratio are modeled with concurrent assim- ilation and fractional crystallization (AFC) processes involving a basaltic magma and granitic basement rocks. Considering both Nd and Sr isotopic variations, the Chogat-Chamardi silicic rocks notably require crustal end members very different from those inferred in most previous isotopic studies of Deccan rocks
The Chogat-Chamardi subvolcanic complex, Saurashtra, northwestern Deccan Traps: Geology, petrochemistry, and petrogenetic evolution / HETU C., Sheth; ASHWINI KUMAR, Choudhary; Sudeshna, Bhattacharyya; Cucciniello, Ciro; Ramesh, Laishram; Trupti, Gurav. - In: JOURNAL OF ASIAN EARTH SCIENCES. - ISSN 1367-9120. - 41:3(2011), pp. 307-324. [10.1016/j.jseaes.2011.02.012]
The Chogat-Chamardi subvolcanic complex, Saurashtra, northwestern Deccan Traps: Geology, petrochemistry, and petrogenetic evolution
CUCCINIELLO, CIRO;
2011
Abstract
The Saurashtra region in the northwestern part of the Deccan continental flood basalt province (India) is notable for its many volcano-plutonic complexes, compositional diversity, and the abundance of rhyolite and granophyre. In this first detailed study of the Chogat-Chamardi subvolcanic complex in eastern Sau- rashtra, we report microgranite and granophyre plutons, gabbro plutons cut by basaltic andesite dykes, as well as rhyolite plugs. Bulk-rock geochemical (including Nd–Sr isotopic) data suggest a strong contribu- tion from ancient, Rb-rich basement crust to the silicic magmas. The mafic rocks are also crustally con- taminated but less than the silicic rocks, in conformity with observations elsewhere (e.g., the Skye and Skaergaard granophyres). The Chogat-Chamardi silicic rocks have initial 87Sr/86Sr (for t = 65 Ma) as high as 0.72914, and initial eNd values as low as -13.9. Trends defined by the Chogat-Chamardi and other Dec- can rhyolitic suites on plots of Sr concentration vs. Sr isotopic ratio are modeled with concurrent assim- ilation and fractional crystallization (AFC) processes involving a basaltic magma and granitic basement rocks. Considering both Nd and Sr isotopic variations, the Chogat-Chamardi silicic rocks notably require crustal end members very different from those inferred in most previous isotopic studies of Deccan rocksI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.