Metamorphic gabbro and basalt in ophiolitic and continental nappes of the Zermatt region (Western Alps)
DOI: https://doi.org/10.1186/s00015-021-00390-w
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/10698
Persistent URL: http://resolver.sub.uni-goettingen.de/purl?gldocs-11858/10698
Bucher, Kurt; Stober, Ingrid, 2021: Metamorphic gabbro and basalt in ophiolitic and continental nappes of the Zermatt region (Western Alps). In: Swiss Journal of Geosciences, Band 114, 1, DOI: 10.1186/s00015-021-00390-w.
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The composition of meta-gabbro and meta-basalt occurring abundant and widespread in all nappes of the nappe stack exposed in the Zermatt region of the Western Alp shows distinct patterns related to the geodynamic origin of metamorphic basic rocks. Eclogitic meta-basalts of the ophiolitic Zermatt-Saas Unit (ZSU) show enriched MORB signatures. The meta-basalts (eclogites) of the continental fragment of the Theodul Glacier Unit (TGU) derive from pre-Alpine metamorphic continental intraplate basalts. Meta-basalts (eclogites) from the continental basement of the Siviez-Mischabel nappe (SMN) derive from MORB thus a genetic relation to the TGU eclogites can be excluded. All basic igneous rocks experienced post-magmatic alteration by fluid-rock interaction ranging from processes at the seafloor, in the shallow crust, during subduction zone hydration, in the exhumation channel and late Alpine regional metamorphisms. The consequences of these alteration processes can be identified at various levels in the rock composition data. It was found that the REE data are little affected by fluid-rock alteration. Some trace elements, notably Cs, Rb, and Ba are typically massively altered relative to igneous compositions in all three groups of meta-basalts. Generally, meta-basalts from the TGU and the SMN preserved the features of the original composition whilst the ZSU meta-volcanic rocks experienced massive alteration. For the ZSU meta-volcanic rocks it is evident that Zr was gained and Y lost during high-pressure fluid-rock interaction indicating a mobile behavior of the two elements during HP-metamorphism in contrast to their behavior in hydrothermal near-surface fluid-rock interaction.