L’Ignimbrite et la Caldera de Batur (Bali,Indonesie) |
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Authors: | G. Marinelli H. Tazieff |
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Affiliation: | 1. Université de Pisa, Italie 2. Université de Paris, France
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Abstract: | Bali island may be considered as consisting of two distinct units: the western part, essentially made by a ridge of volcanic breccias, and the eastern part, made by a series of active volcanoes,viz. the strato-volcano Agung and two large calderas, Tjatur and Batur. The latter results from the collapse of a strato-volcano following the outpouring of an ignimbritic unit (ash flow) covering the northern and the southern flanks of Batur. This event occurred some 22,000 years ago. The whole island is tilted northwards around its long axis; this tilt is made obvious 1°) by the different slopes of the ignimbritic flow on the northern and southern sides of the volcano, 2°) by the island morphology and 3°) by the altitude — several hundred meters above sea level — where are found presently on the southern foot of Agung volcano recent submarine basalts (with pillow lavas and hyaloclastites). The tilt of Bali could be due to the presence of a major normal fault (or a system of faults), which itself explains the generation of the ignimbritic magma and, accordingly, the collapse of the caldera. The outflow of the ignimbrite indeed followed a long period of andesitic activity; it has been preceded — and followed — by flows of bandaite, a leucocratic lava with highly basic plagioclase (about 80 to 90% An); according to the authors, this kind of lava was generated, at shallow dephts by the assimilation of aluminous strata by a basaltic magma. Such an assimilation, as well as the anatexy generating the ignimbritic magma, is made possible thanks to important amounts of heat; most probably this heat has been supplied by basaltic magma rising in the crust through large normal faults, the magnitude and dip of which are shown by the northward tilting of the island. |
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