Caldera formation at Cerro las Cumbres, Mexico Figure 9. Photomicrograph of the dome rocks. The section is 4.5 mm across. The three phenocrysts present are pyroxene absorbed on its edges, rounded quartz and sanidine feldspar. Groundmass is made up of pla- gioclase, clinopyroxene and titano-magnetite. – Ljósmynd af þunnsneið úr bergi hraungúlsins. Ljósmyndin er 45 mm í þvermál. Þrír kristallar sjást á myndinni, pýroxen með ávalar hlíðar, ávalt kvars og sanidine feldspat. Grunnmassi er úr plagíóklas, clínópýroxen og títanómagnetíti. 9). This is the same phenocryst assemblage observed in the pumices, but the dome phenocrysts differ in that they are subhedral to anhedral. In addition, the dome lava contains subhedral olivine and clinopyrox- ene. The volume of the lava dome is calculated as 1.5 km
DRE (Table I). GEOCHEMISTRY Whole rock composition of samples from the dome and ash–flow deposits, and three pumices from the pumice-fall deposits were analyzed by ICP-MS at Clermont-Ferrand (Table II). According to the anhydrous total alkalis–silica chemical classification system, (Figure 10) (Le Maitre, 1989), the ash–flow deposits and the dome are dacitic, whereas the pumice–fall deposits are rhy- olitic (Table II). The bulk composition of the the ash– flow deposits may have been modified by the loss of fine light components such as glass or feldspar etc., the concentration of dense minerals, or the incorpora- tion of lithic clasts (Luhr, personal communication). Figure 10 shows analyses of lavas from the neighbor- ing volcano Pico de Orizaba and surrounding satelitic cones (Höskuldsson, 1992), and depicts the general geochemical trend of magmas from the region. The plots shows the evolved nature of the rhyolites. If the mineral assemblage of the dome lava, is related to the mixing of two magmas, then the basaltic magma would probably be within this compositional range. RECONSTRUCTION OF EVENTS In reconstructing the 16 ka Cerros las Cumbres erup- tion it is necessary to consider the environmental conditions prevailing at the time. Cerro las Cum- bres has an altitude of 3,950 m at the highest peak on the caldera rim. Just prior to the eruption and collapse of the central part the cone, the volcano is thought to have been considerably higher, perhaps 4,500-5,000 m (Figure 11–1). At present, mountains in Mexico reaching this altitude, such as Popocatépetl, Iztaccihuatl and Pico de Orizaba, are all capped by small glaciers. Paleoclimatic studies from the Gulf of Mexico show that during the late Wisconsinan, the climate was much colder than it is today (Kennett JÖKULL No. 50 59

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