Journal of Petrology

Journal of Petrology Advance Access originally published online on July 22, 2004
Journal of Petrology 2004 45(9):1747-1776; doi:10.1093/petrology/egh032

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Journal of Petrology 45(9) © Oxford University Press 2004; all rights reserved

Rates and Timescales of Fractional Crystallization from ²³⁸U–²³⁰Th–²²⁶Ra Disequilibria in Trachyte Lavas from Longonot Volcano, Kenya

NICK W. ROGERS^1,*, PETER J. EVANS^1,, STEVE BLAKE¹, STUART C. SCOTT² and CHRIS J. HAWKESWORTH³

¹ DEPARTMENT OF EARTH SCIENCES, THE OPEN UNIVERSITY, MILTON KEYNES, MK7 6AA, UK
² DEPARTMENT OF GEOLOGY, UNIVERSITY OF PLYMOUTH, DRAKE CIRCUS, PLYMOUTH, PL4 8AA, UK
³ DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF BRISTOL, QUEENS ROAD, BRISTOL BS8 1RJ, UK

^* Corresponding author. Telephone: 01908 652013. Fax: 01908 655151. E-mail: n.w.rogers{at}open.ac.uk

A suite of peralkaline trachytes from Longonot volcano, Kenya, which erupted during the last 6000 years, has been analysed for major and trace elements, Pb and Nd isotopes, and U–Th–Ra disequilibria. The lavas are divided into three stratigraphic groups of trachytes (Lt²a, Lt²b and Lt³), and hybrid lavas, designated LMx¹ and LMx², which, respectively, pre-date and post-date the Lt² lavas. Major and trace elements are consistent, with up to 37% within-group fractional crystallization of predominantly alkali feldspar. The parental magma for the different trachyte groups had a more mafic composition—probably hawaiitic. Nd and Pb isotopes show minimal variation, both within and between magma groups, and indicate that up to 10% comendite magma from the neighbouring Olkaria volcanic field may have intermixed with the Longonot magma. (²³⁰Th/²³⁸U) disequilibria indicate that limited U/Th fractionation occurred during the past 10 kyr, whereas (²²⁶Ra/²³⁰Th) disequilibria reflect the effect of alkali feldspar fractionation >8 kyr ago in the Lt²a lavas, between 3 and 7 kyr ago in the Lt²b lavas and in the past 3 kyr for the Lt³ lavas. (²²⁶Ra/²³⁰Th) disequilibria in the Lt²b lavas are interpreted using a model that combines the equations of radioactive decay and in-growth with Rayleigh crystallization to give fractionation rates of about 0·2 x 10^–4/year for the evolution of hawaiite to trachyte, but more rapid rates of up to 3 x 10^–4/year for fractionation within the trachyte sequence. (²²⁶Ra/²³⁰Th) from two whole-rock–alkali feldspar pairs are interpreted to show the crystals formed at 5800 years BP (Lt²b) and 2800 years BP (Lt³), implying that phenocryst formation continued almost up to the time of eruption. The results strongly indicate that fractionated magmas can be stored for periods on the order of 1000–2500 years prior to eruption, whereas other magmas were erupted as fractionation was proceeding.

KEY WORDS: trachyte; magma chambers; u-series; Kenya

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