A Rapid Fluctuation in the Mantle Source and Melting History of Kilauea Volcano Inferred from the Geochemistry of its Historical Summit Lavas (1790-1982)

doi:10.1093/petroj/40.8.1321

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Journal of Petrology | Volume 40 | Number 8 | Pages 1321-1342 | 1999
© Oxford University Press 1999

A Rapid Fluctuation in the Mantle Source and Melting History of Kilauea Volcano Inferred from the Geochemistry of its Historical Summit Lavas (1790–1982)

Aaron J. Pietruszka^* and Michael O. Garcia

Hawaii Center for Volcanology, Department of Geology and Geophysics, University of Hawaii Honolulu, HI 96822, USA

Received September 3, 1998; Revised typescript accepted February 25, 1999

Abstract

The geochemical variations of Kilauea's historical summit lavas(1790–1982) document the short-term magmatic evolutionof one of the Earth's most active volcanoes. Most of these lavasare thought to have erupted directly from the shallow (2–4km deep) magma reservoir that underlies the volcano's summitregion. This paper details a remarkable variation of lava chemistrythat spans nearly the entire known compositional range of thevolcano in only 200 years. The Pb, Sr, and Nd isotope and incompatibletrace element ratios (e.g. La/Yb or Nb/Y) of the lavas varysystematically over time with an abrupt reversal after 1924.This rapid geochemical fluctuation records the temporal changesin the parental magma composition delivered to Kilauea's summitreservoir since 1790. The isotope and incompatible trace elementratio systematics suggest that the source region of historicalKilauea magma is both isotopically and chemically heterogeneous.These source variations can be explained by the melting of small-scaleheterogeneities within the Hawaiian mantle plume. Model calculationssuggest that the degree of partial melting decreased from theearly 19th century until the mid-20th century, which correlateswith a lower eruption rate (and presumably a lower magma supplyrate) for the volcano between 1840 and 1959. This interval ofdeclining output from the Hawaiian plume culminated with anexplosive summit eruption in 1924 and the longest quiescentperiod in Kilauea's historical record (1934–1952). Lavaserupted just after 1924 are geochemically anomalous and mayhave been contaminated by the assimilation of country rock intothe volcano's magma reservoir during the explosions. Subsequently,the inferred degree of partial melting and the volcano's eruptionrate have increased, with the highest values since the early19th century observed during the current Puu Oo rift zone eruption.

KEY WORDS: Kilauea Volcano; geochemistry; mantle melting; source heterogeneity; crustal assimilation

^* Corresponding author. Present address: Carnegie Institution of Washington, Department of Terrestrial Magnetism, 5241 Broad Branch Road, NW, Washington, DC 20015, USA

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