Abstract
Cosigu« ina volcano, in northwestern Nicaragua, erupted violently on 20^24 January 1835, producing pumice, scoria, ash fall deposits, and pyroclastic flows with a bulk tephra volume of 6 km. New geochemical data are presented for bulk-rocks, matrix glasses, melt inclusions and minerals from the 1835 deposits and a pre-1835 basaltic andesite tephra, with the aim of shedding light on the magmatic processes and associated timescales that led to the eruption. Our results reveal that the 1835 eruption was fed by a compositionally and thermally zoned magma reservoir situated 4 km (PH2O 100MPa) beneath the volcano. Small volumes of crystal-poor dacite (510 wt % phenocrysts, 63·8^64·8 wt % SiO2, 9508C) and silicic andesite (510 wt % phenocrysts, 62·2 wt % SiO2, 960^10108C) were erupted first, followed by relatively crystal-rich andesite (15^30 wt % phenocrysts, 57·4^58·8 wt % SiO2, 960^ 10108C), which accounts for 90% of the erupted magma. The pre-1835 basaltic andesite ( 20 wt % phenocrysts, 52·4 wt % SiO2, 1110^11708C) represents a mafic end-member for Cosigu« ina. The major and trace element compositions of the bulk-rocks, melt inclusions and matrix glasses suggest that (1) the pre-1835 basaltic andesite is a plausible parent for the 1835 magmas, (2) the 1835 andesite bulk-rocks do not represent true melts, but instead mixtures of silicic andesite liquid and a component of accumulated crystals dominated by plagioclase, and (3) the silicic andesite and dacite formed from the andesite magma through liquid extraction followed by fractional crystallization. Observed bimodal to trimodal crystal populations are consistent with a multi-stage, polybaric differentiation process, with calcic plagioclase (An75^90, An90^95) and magnesian clinopyroxene (Mg#1⁄4 67^75), plus olivine and magnetite, forming from mafic andesite, basaltic andesite and basalt in the lower crust. The calcic plagioclase exhibits sieve textures, which may be the result of H2O-undersaturated decompression during magma ascent to the upper crust; An50^65 plagioclase lacking a sieve texture, orthopyroxene (Mg#1⁄4 61 and 63^72), clinopyroxene (Mg#1⁄4 67), magnetite and apatite crystallized from andesite to dacite liquids in the shallow magma reservoir. An75^90 plagioclase comprising entire phenocrysts or cores with An50^65 rims in the 1835 magmas is cognate from earlier stages of differentiation and shows evidence of extensive diffusion of Mg when compared with similar An75^95 crystals hosted in the pre-1835 basaltic andesite. Using plagioclase^melt Mg partitioning and modelling of the Mg diffusion process, we constrain the residence time of these crystals in the silicic liquids to more than 100 years and less than 2000 years, with detailed analysis of three crystals yielding 400 years.We propose that magma reservoir zonation occurred on timescales of 10^ 10 years at Cosigu« ina.The occurrence of H2O-rich fluid inclusions in all 1835 samples and volatile element systematics in melt inclusions imply that the magmas were saturated with a vapour phase (H2O, S, CO2) during much of their evolution in the upper
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