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ANDERS LINDROTH FREDRIK LAGERGREN MIKA AURELA BRYNHILDUR BJARNADOTTIR TORBEN CHRISTENSEN EBBA DELLWIK ACHIM GRELLE REAS IBROM TORBJÖRN JOHANSSON HARRY LANKREIJER SAMULI LAUNIAINEN TUOMAS LAURILA MEELIS MÖLDER EERO NIKINMAA KIM PILEGAARD BJARNI D. SIGURDSSON TIMO VESALA 《Tellus. Series B, Chemical and physical meteorology》2008,60(2):129-142
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This is the first account of volcanic rocks erupted from a northernextension of the MidAtlantic Ridge to a locality between Icelandand Jan Mayen. The islet of Kolbeinsey (67° 08' N., 18°36' W.) is being rapidly eroded and now measures 52x36 m, andreaches only to 7.5m above sea level. Two identical specimensof vesicular basalt were collected by the Icelandic Coastguardvessel Aegir in 1962, and have now been chemically analysed.The mineral compositions were determined by electron microprobeanalysis. The rock carries micro-phenocrysts of highly magnesianolivine (Fo98 8) and of plagioclase (An85 to An30). Brown andlemon-yellow grains of augite (Wo42 En45 Fs13) are accompaniedby pale-yellow, euhedral to subhedral, groundmass orthopyroxenesof highly magnesian composition (Wo4 En88 Fs8) and with a calciumcontent higher than found previously in enstatites. The chemistryof the basalt, also, is unusual in showing Fe2O3 = 8.98 percent and FeO = 0.38 per cent. The high state of oxidation isconsidered in relation to the production of forsterite and enstatitefrom basalt magma. Historic submarine volcanism in the regionis discussed in relation to bathymetric and geophysical data. 相似文献
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Petrology of Rhyolitic and Mixed Magma Ejecta from the 1875 Eruption of Askja, Iceland 总被引:3,自引:0,他引:3
Volcanic activity in Askja central volcano and its fissure swarmin 1875 occurred in response to a crustal rifting episode inIceland, resulting in up to 70 km lateral flow of magma withinthe crust, caldera collapse and a plinian eruption of acid magma(0·2 km3 dense-rock equivalent). Petrologic studies ofthe predominantly rhyolitic and crystal-poor ejecta reveal thata complex array of other liquid compositions was also present,including icelandite (0.75 per cent) and basalt (1.9 per cent),as well as leucocratic xenoliths of trondhjemite type. Mineralgeothermometers indicate that the rhyolite evolved at 990 to1010 °C and 0·5 Kb PH2O, the icelandite at 1005 to1020 °C and at fO2 10–10 atm. and the basalt at 1140to 1170 °C. A petrologic model of Askja in 1875 consists of a density-stratifiedmagma chamber with a rhyolitic upper part and a lower part offerrobasalt, with an intervening layer of icelandite. The modelcalculations show that the icelandite can be derived from ferrobasaltby 50 per cent fractional crystallization, but one-stage fractionalcrystallization models cannot account for generation of theacid magma. Simple partial or complete fusion of the field-associatedtrondhjemite xenoliths cannot produce the acid magma. Instead,a more complex fusion, hybridization and fractional crystallizationmodel is presented, which is consistent with the available petrologicevidence. This model involves large-scale fusion of pre-existingtrondhjemite intrusions or reactivation of previously consolidatedroof-rock in the magma chamber followed by hybridization ofthe acid magma with 7 to 14 per cent basaltic magma. Finally,10 to 11 per cent fractional crystallization of the dacite hybridis required to produce the observed compositional range withinthe rhyolite ejecta. The 1875 explosive eruption was causedby the ascent of tholeiitic basalt magma from depth during crustalrifting. Influx of new basalt magma in 1874–75 triggeredconvective mixing and hybridization in the compositionally zonedmagma chamber. 相似文献
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