Geochemical Stratigraphy of Submarine Lavas (3-5 Ma) from the Flamengos Valley, Santiago, Southern Cape Verde Islands

doi:10.1093/petrology/egn081

Journal of Petrology Advance Access originally published online on January 22, 2009
Journal of Petrology 2009 50(1):169-193; doi:10.1093/petrology/egn081

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Geochemical Stratigraphy of Submarine Lavas (3–5 Ma) from the Flamengos Valley, Santiago, Southern Cape Verde Islands

Abigail K. Barker¹^,*, Paul M. Holm², David W. Peate³ and Joel A. Baker⁴

¹Department of Earth Sciences, Uppsala University, Villavägen 16, SE 752 36, Uppsala, Sweden
²Department of Geography and Geology, University of Copenhagen, Øster Voldgade 10L, Copenhagen 1350 K, Denmark
³Department of Geoscience, University of Iowa, 121 Trowbridge Hall, Iowa City, IA 52242, USA
⁴School of Earth Sciences, Victoria University of Wellington, PO BOX 600, Wellington, New Zealand

RECEIVED DECEMBER 20, 2007; ACCEPTED DECEMBER 24, 2008

Abstract

New high-precision Pb–Sr–Nd isotope, major and traceelement and mineral chemistry data are presented for the submarinestage of ocean island volcanism on Santiago, one of the southernislands of the Cape Verde archipelago. Pillow basalts and hyaloclastitesin the Flamengos Valley are divided into three petrographicand compositional groups; the Flamengos Formation lavas ( $~$ 4·6Ma) dominate the sequence, with the younger Low Si and Coastalgroups ( $~$ 2·8 Ma) found near the shoreline. Olivine andclinopyroxene compositions and isotopic data for minerals andtheir host melts indicate disequilibrium between some crystalsand the melt. Intra-sample disequilibrium suggests homogenisationof liquids but eruption before complete equilibration betweencrystals and melt preserves the heterogeneity. Pressures ofcrystallization for clinopyroxene (0·4–1·1GPa) indicate stalling and crystallization of the magmas overa range of depths in the lithosphere. Major element compositionsindicate melting of a carbonated eclogite source. Sr–Nd–Pbisotope data suggest the involvement of FOZO-like and EM1-likecomponents in the mantle source, which are simultaneously availableat all depths in the melting column. The Flamengos Valley lavasdisplay large compositional variations, often between stratigraphicallyadjacent flows; these frequent abrupt changes of magma compositionsuggest stalling and crystallization of discrete magma batcheson transport through the lithosphere.

KEY WORDS: Cape Verde; crystal–melt disequilibrium; submarine volcanism; source heterogeneity; Pb–Sr–Nd isotopes

*Corresponding author. Telephone: +46 18 471 25 85. E-mail: Abigail.Barker{at}dunelm.org.uk

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