A record of magmatic differentiation in plutonic xenoliths from Santorini (Greece)

Main Article Content

Sean Whitley
Ralf Halama
https://orcid.org/0000-0002-9770-6784
Ralf Gertisser
https://orcid.org/0000-0002-9973-2230
Thor H. Hansteen
https://orcid.org/0000-0003-1991-5107
Matthias Frische
https://orcid.org/0000-0001-8639-3519
Torsten Vennemann
https://orcid.org/0000-0003-4061-0420

Abstract

Plutonic xenoliths from volcanic arcs provide unique insights into transcrustal magmatic systems in subduction zone settings. At Santorini volcano in the Central Aegean Volcanic Arc (Greece), plutonic xenoliths occur throughout a sequence of lavas and pyroclastic rocks erupted within the last ~360 ka. They are mineralogically variable, ranging from troctolites to olivine gabbros, gabbros, gabbronorites, and diorites. Thermobarometric calculations based on mineral and melt inclusion compositions indicate equilibration over a range of temperatures (1100 to 750 °C) at shallow to mid-crustal depths (P <400 MPa), but there is no evidence for crystallisation at lower crustal depths. Oxygen isotope data of mineral separates and calculated δ18O melt values are in line with extensive closed-system fractional crystallisation at magmatic temperatures, without a requirement for extensive assimilation of the subvolcanic continental basement. The xenolith minerals compositionally overlap with phenocrysts from the volcanic rocks, but they also contain evidence for the presence of highly evolved melt compositions in the form of melt inclusions with extremely silica-rich compositions (up to 82 wt.% SiO2) and high enrichments of incompatible trace elements coupled with increasing negative Eu anomalies in clinopyroxenes. Since these characteristics correlate systematically with differentiation indices and rock type, they are interpreted to reflect melt evolution via fractional crystallisation as the dominant differentiation process with no significant role of reactive porous flow. These observations highlight that trapped melt fractions can influence mineral compositional variations in the plutonic xenoliths, and in turn the mineral compositions demonstrate a melt compositional variability not preserved in the volcanic rock record.

Downloads

Download data is not yet available.

Article Details

How to Cite
Whitley, S., Halama, R., Gertisser, R., Hansteen, T. H., Frische, M. and Vennemann, T. (2024) “A record of magmatic differentiation in plutonic xenoliths from Santorini (Greece)”, Volcanica, 7(2), pp. 421–446. doi: 10.30909/vol.07.02.421446.
Section
Articles
Citation information
Crossref
This article has citations in Scopus
Link to article page on Google Scholar
Connected papers
Dates
Received 2023-09-13
Accepted 2024-04-13
Published 2024-07-16
Alternative metrics via Dimensions and altmetric

Metrics


Smart Citations via scite_