汉诺坝玄武岩化学及其演化趋势   总被引：2，自引：2，他引：2  

邓晋福  鄂莫岚  路风香 《岩石学报》1988,4(1)

汉诺坝玄武岩于中新世喷出。除了碱性玄武岩以外,夏威夷岩广泛分布,还有苦橄玄武岩和马盖尔岩。有三个岩浆演化趋势:地壳岩浆房内橄榄石和单斜辉石斑晶组合的分离作用产生了从夏威夷岩到马盖尔岩的肯尼迪分异趋势;莫霍面附近的岩浆房内石榴石、普通辉石、歪长石和钛铁矿巨晶组合的分离作用导致了由原生夏威夷岩和碱性玄武岩经过进化的夏威夷岩和碱性玄武岩到拉斑玄武岩的跨式B型分异趋势;原生岩浆演化趋势。  相似文献   

Contemporaneous eruption of calc-alkaline and alkaline lavas in a continental arc (Eastern Mexican Volcanic Belt): chemically heterogeneous but isotopically homogeneous source     

Gerardo?Carrasco-Nú?ezEmail author  Kevin?Righter  John?Chesley  Lee?Siebert  José?Jorge?Aranda-Gómez 《Contributions to Mineralogy and Petrology》2005,150(4):423-440

Nearly contemporaneous eruption of alkaline and calc-alkaline lavas occurred about 900 years BP from El Volcancillo paired vent, located behind the volcanic front in the Mexican Volcanic Belt (MVB). Emission of hawaiite (Toxtlacuaya) was immediately followed by calc-alkaline basalt (Río Naolinco). Hawaiites contain olivine microphenocrysts (Fo_67–72), plagioclase (An_56–60) phenocrysts, have 4–5 wt% MgO and 49.6–50.9 wt% SiO₂. In contrast, calc-alkaline lavas contain plagioclase (An_64–72) and olivine phenocrysts (Fo_81–84) with spinel inclusions, and have 8–9 wt% MgO and 48.4–49.4 wt% SiO₂. The most primitive lavas in the region (Río Naolinco and Cerro Colorado) are not as primitive as parental melts in other arcs, and could represent either (a) variable degrees of melting of a subduction modified, garnet-bearing depleted mantle source, followed by AFC process, or (b) melting of two distinct mantle sources followed by AFC processes. These two hypotheses are evaluated using REE, HFSE, and Sr, Os and Pb isotopic data. The Toxtlacuaya flow and the Y & I lavas can be generated by combined fractional crystallization and assimilation of gabbroic granulite, starting with a parental liquid similar to the Cerro Colorado basalt. Although calc-alkaline and alkaline magmas commonly occur together in other areas of the MVB, evidence for subduction component in El Volcancillo magmas is minimal and limited to <1%, which is a unique feature in this region further from the trench. El Volcancillo lavas were produced from two different magma batches: we surmise that the injection of calc-alkaline magma into an alkaline magma chamber triggered the eruption of hawaiites. Our results suggest that the subalkaline and hawaiitic lavas were formed by different degrees of partial melting of a similar, largely depleted mantle source, followed by later AFC processes. This model is unusual for arcs, where such diversity is usually explained by melting of heterogeneous (enriched and depleted) and subduction-modified mantle.  相似文献