East African Rift System (EARS) Plume Structure: Insights from Quaternary Mafic Lavas of Turkana, Kenya

doi:10.1093/petrology/egh004

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Journal of Petrology | Volume 45 | Number 5 | Pages 1069-1088 | 2004
Journal of Petrology 45(5) © Oxford University Press 2004; all rights reserved.

East African Rift System (EARS) Plume Structure: Insights from Quaternary Mafic Lavas of Turkana, Kenya

TANYA FURMAN¹^,*, JULIA G. BRYCE², JEFFREY KARSON³ and ANNAMARIA IOTTI⁴

¹ DEPARTMENT OF GEOSCIENCES, PENNSYLVANIA STATE UNIVERSITY, UNIVERSITY PARK, PA 16802, USA
² DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF NEW HAMPSHIRE, DURHAM, NH 03824, USA
³ DIVISION OF EARTH AND OCEAN SCIENCES, DUKE UNIVERSITY, DURHAM, NC 27708, USA
⁴ VIA GRAZIANO 15, 00165 ROME, ITALY

^* Corresponding author. Telephone: 814-865-5782. Fax: 814-863-7823. E-mail: furman{at}geosc.psu.edu

Quaternary mafic lavas from Lake Turkana (northern Kenya) provideinformation on processes operating beneath the East AfricanRift in an area of anomalous lithospheric and crustal thinning.Inferred depths of melting beneath Turkana (15–20 km)are shallower than those recorded elsewhere along the rift,consistent with the anomalously thin crustal section. The maficlavas have elevated incompatible trace element contents whencompared with mid-ocean ridge basalts, requiring an enrichmentevent in the source region. Basalts with low Sr isotopic ratios( $~$ 0·7030) have high ¹⁴³Nd/¹⁴⁴Nd (>0·5129) and²⁰⁶Pb/²⁰⁴Pb values ( $~$ 19·4) and incompatible trace elementabundances that indicate derivation from a sub-lithosphericmantle source region. Quaternary mafic rocks with 10–15wt % MgO record contributions from a mantle plume that is isotopicallysimilar to the deep mantle source region for global hotspots.These Turkana basalts have isotope and incompatible trace elementratios that overlap with those of Quaternary mafic lavas fromthe Red Sea, the western Gulf of Aden, and northern Kenya, interpretedas being derived from mixtures of plume and ambient mantle sources.The Turkana data imply a common and long-lived mantle plumecomposition beneath both the Ethiopia and Kenya domes. Thisscenario is supported by tomographic results indicating a discontinuousthermal and chemical anomaly that originates in the deep mantlebeneath southern Africa, and is also consistent with the seismicallydetermined shallow mantle structure beneath East Africa.

KEY WORDS: basalts; geochemistry; plume; rifting; East Africa

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