Abstract
Effusive eruptions dominate the eruptive record of many arc volcanoes and may hold crucial information about their plumbing systems, yet they are underrepresented in geochemical and petrological studies. Here, we present whole rock major and trace element data as well as Sr–Nd–Hf isotopic compositions for 14 lava flows and four Plinian eruptions of the Popocatépetl Volcanic Complex (PVC) in the last ~23.5 ka, allowing the first comprehensive geochemical characterisation of the dynamics and evolution of its plumbing system. Lavas and pumices of the PVC are andesites–dacites with a narrow compositional range showing no first-order geochemical trends in the last ~23.5 ka. Trace element and isotope ratios show that PVC magmas are derived from a depleted mantle source with a component of subducted sediments. Assimilation-fractional crystallisation models show that magma compositions are modified to varying degrees by assimilation of lower and upper crust en route to the surface. In the shallow plumbing system, geochemically distinct magmas coexist and undergo extensive mixing and hybridisation, thus buffering erupted whole rock compositions. Only few flank eruptions sample more primitive magmas from deeper reservoirs that circumvented the shallow plumbing system. Some Plinian eruptions caused compositional shifts reflecting reconfigurations of the plumbing system, which also affected subsequent effusive eruptions. Our study thus shows that the geochemical variability of PVC magmas in the last ~23.5 ka is dominated by crustal processes, and magma hybridisation is the primary mechanism to produce the buffered whole rock compositions of the PVC.
Highlights
Arc volcanoes are characterised by a variety of eruptive styles, ranging from effusive to violent explosive episodes
assimilation-fractional crystallisation (AFC) modelling using a calc-alkaline Sierra Chichinautzin Volcanic Field (SCVF) andesite as the magmatic endmember (CH-09-2: Straub et al [2015]), and crustal assimilants and parameters identical to the models shown in Figure 11, can reproduce the vectors of both the Chipiquixtle–Yellow Pumice (YP) array and the main Popocatépetl Volcanic Complex (PVC) range (Figure 13). This supports a genetic relationship between calc-alkaline SCVF and PVC rocks, and we suggest that primitive calc-alkaline rocks erupted in the SCVF approximate the parental melts feeding the PVC plumbing system
We present a comprehensive geochemical study of effusive and explosive eruptions of the last ∼23.5 ka at the PVC, to highlight mantle source characteristics, reconstruct the evolution and dynamics of the plumbing system, and show that the compositional range of the PVC rock suite is dominated by crustal processes such as assimilation-fractional crystallisation and magma mixing
Summary
Arc volcanoes are characterised by a variety of eruptive styles, ranging from effusive to violent explosive episodes. Wilson et al 1980; Woods and Koyaguchi 1994; Parfitt and Wilson 1995; Dingwell 1996; Gonnermann and Manga 2003; Ripepe et al 2005; Edmonds and Herd 2007; Platz et al 2007; Castro and Gardner 2008; Degruyter et al 2012]. Such investigations are generally focussed on explosive activity and deposits, often neglecting the voluminous effusive eruptions that dominate the activity of many stratovolcanoes worldwide [Davidson, De Silva, et al 2000]. Effusive eruptions are key to understanding the evolution of volcanic complexes and may hold important information about the build-up to and aftermath of explosive eruptions [e.g. Ruprecht and Bachmann 2010; Koleszar et al 2012; De Maisonneuve et al 2012; Tepley et al 2013]
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