Isotope geochemistry of Pantelleria volcanic fluids, Sicily Channel rift: a mantle volatile end-member for volcanism in southern Europe

Details Isotope geochemistry of Pantelleria volcanic fluids, Sicily Channel rift: a mantle volatile end-member for volcanism in southern Europe Isotope geochemistry of Pantelleria volcanic fluids, Sicily Channel rift: a mantle volatile end-member for volcanism in southern Europe

Aug 2000

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000e%26psl.180..325p&link_type=abstract

Earth and Planetary Science Letters, Volume 180, Issue 3-4, p. 325-339.

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9

Scientific paper

Chemical and isotopic ratio (He, C, H and O) analysis of hydrothermal manifestations on Pantelleria island, the southernmost active volcano in Italy, provides us with the first data upon mantle degassing through the Sicily Channel rift zone, south of the African-European collision plate boundary. We find that Pantelleria fluids contain a CO2-He-rich gas component of mantle magmatic derivation which, at shallow depth, variably interacts with a main thermal (~100°C) aquifer of mixed marine-meteoric water. The measured 3He/4He ratios and δ13C of both the free gases (4.5-7.3 Ra and -5.8 to -4.2‰, respectively) and dissolved helium and carbon in waters (1.0-6.3 Ra and -7.1 to -0.9‰), together with their covariation with the He/CO2 ratio, constrain a 3He/4He ratio of 7.3+/-0.1 Ra and a δ13C of ca. -4‰ for the magmatic end-member. These latter are best preserved in fluids emanating inside the active caldera of Pantelleria, in agreement with a higher heat flow across this structure and other indications of an underlying crustal magma reservoir. Outside the caldera, the magmatic component is more affected by air dilution and, at a few sites, by mixing with either organic carbon and/or radiogenic 4He leached from the U-Th-rich trachytic host rocks of the aquifer. Pantelleria magmatic end-member is richer in 3He and has a lower (closer to MORB) δ13C than all fluids yet analyzed in volcanic regions of Italy and southern Europe, including Mt. Etna in Sicily (6.9+/-0.2 Ra, δ13C=-3+/-1‰). This observation is consistent with a south to north increasing imprint of subducted crustal material in the products of Italian volcanoes, whose He and C (but also O and Sr) isotopic ratios gradually evolve towards crustal values northward of the African-Eurasian plate collision boundary. Our results for Pantelleria extend this regional isotopic pattern further south and suggest the presence of a slightly most pristine or `less contaminated', 3He-richer mantle source beneath the Sicily Channel rift zone. The lower than MORB 3He/4He ratio but higher than MORB CO2/3He ratio of Pantelleria volatile end-member are compatible with petro-geochemical evidence that this mantle source includes an upwelling HIMU-EM1-type asthenospheric plume component whose origin, according to recent seismic data, may be in the lower mantle.

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