Abstract
The alkaline intrusions of Montpellier, in the south of France, are of absarokitic composition, consisting of very dark basanites containing orthoclase, biotite, analcite and in places Na-ferrisalite. The dykes cut country rocks up to Early Oligocene in age and have yielded K-Ar ages of 31 to 23 Ma (Stampian-early Aquitanian). Interpretation and analysis of Spot-1 XS and panchromatic remote sensing data indicate an original network of conjugate fracture systems, the fractures trending 020–040°, and 170° that acted as channelways for the ascending magma. This alkaline magnetic district defines a NE- to NNE-trending tectono-magmatic corridor formed in a thinned part of the European plate during Oligocene anorogenic extension. The regional fracture system formed in two stages: (a) reactivation of pre-existing large-scale Riedel shears (which formed initially during the end-Eocene to Early Oligocene Pyrenean stage, extending eastwards from the wall of the Cévennes Fault); (b) synchronous re-opening of the 130° and 170° fractures, whose roots are to be found in the Variscan basement. Satellite data, in particular those of Spot, with its high spatial resolution and stereoscopic capability, in combination with a detailed study of the Montpellier Tertiary igneous rocks have advanced the geological knowledge of the Montpellier area. The new scheme has direct consequences for mineral exploration, especially exploration for oil.
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More From: ISPRS Journal of Photogrammetry and Remote Sensing
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