Crustal origin for peralkaline rhyolites from Kenya : evidence from U-series disequilibria and Th-isotopes.

Lancaster Environment Centre

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https://doi.org/10.1093/petroj/38.2.277
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Keywords

U–Th disequilibrium, crystallization ages, pre-eruptive volatiles, crustal source rocks, metasomatic fluids

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Crustal origin for peralkaline rhyolites from Kenya : evidence from U-series disequilibria and Th-isotopes. / Black, S.; Macdonald, Ray; Kelly, M. R.
In: Journal of Petrology, Vol. 38, No. 2, 02.1997, p. 277-297.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Bibtex

@article{c6db7fa133534660b9f4314048661b7a,

title = "Crustal origin for peralkaline rhyolites from Kenya : evidence from U-series disequilibria and Th-isotopes.",

abstract = "The Olkaria complex is a recent, peralkaline rhyolite field in the Kenya Rift Valley close to the axial region of the Kenya Dome. U–Th disequilibrium was measured by -spectrometry in whole rocks and mineral separates from seven geographically and compositionally distinct groups (centres) of rhyolites. Forty-three whole-rock samples show variable Th/U ratios (2.8–6.2) and a large range of (238U/232Th) ratios (0.5–1.1); 79% of the rhyolites show U excess. Rocks from some centres plot entirely to the left or right of the equiline, whereas some centres straddle it. Internal isochrons give U–Th ages of between 14.6+2.2–2.1 and 36.2+2.6–2.6 ka (2) respectively for the Gorge Farm centre and 50.5+7.9–7.3ka for the Broad Acres centre. These ages, interpreted as phenocryst crystallization ages, are older than eruption ages by 103–104 yr. The youngest centre displays (226Ra/230Th) > 1, indicating that Ra–Th fractionation has taken place <8000 yr bp. There is a positive correlation between (226Ra/230Th) and (238U/230Th) ratios for rocks of the youngest centre, indicating that the Ra enrichment and the U enrichment probably occurred during the same event. Closed-system fractionation of observed mineral phases cannot alone explain the U-series disequilibria although it may have contributed to other compositional features of the rhyolites. The degree of U enrichment is related to major and trace element variations in the rhyolites as a whole, in that there is a correlation with peralkalinity and thus with incompatible trace element abundances, in particular Nb, Rb and Zr. There is a good correlation between (238U/230Th) and pre-eruptive F contents but not pre-eruptive H2O contents, consistent with previous suggestions that the rhyolites formed by halogen-fluxed melting of the crust. Compositional variations between groups of rhyolites are related to heterogeneity of the crustal source rocks, degree of partial melting(and thus residual mineralogy) and the composition and abundance of metasomatic fluids.",

keywords = "U–Th disequilibrium, crystallization ages, pre-eruptive volatiles, crustal source rocks, metasomatic fluids",

author = "S. Black and Ray Macdonald and Kelly, {M. R.}",

year = "1997",

month = feb,

doi = "10.1093/petroj/38.2.277",

language = "English",

volume = "38",

pages = "277--297",

journal = "Journal of Petrology",

issn = "1460-2415",

publisher = "Oxford University Press",

number = "2",

}

RIS

TY - JOUR

T1 - Crustal origin for peralkaline rhyolites from Kenya : evidence from U-series disequilibria and Th-isotopes.

AU - Black, S.

AU - Macdonald, Ray

AU - Kelly, M. R.

PY - 1997/2

Y1 - 1997/2

N2 - The Olkaria complex is a recent, peralkaline rhyolite field in the Kenya Rift Valley close to the axial region of the Kenya Dome. U–Th disequilibrium was measured by -spectrometry in whole rocks and mineral separates from seven geographically and compositionally distinct groups (centres) of rhyolites. Forty-three whole-rock samples show variable Th/U ratios (2.8–6.2) and a large range of (238U/232Th) ratios (0.5–1.1); 79% of the rhyolites show U excess. Rocks from some centres plot entirely to the left or right of the equiline, whereas some centres straddle it. Internal isochrons give U–Th ages of between 14.6+2.2–2.1 and 36.2+2.6–2.6 ka (2) respectively for the Gorge Farm centre and 50.5+7.9–7.3ka for the Broad Acres centre. These ages, interpreted as phenocryst crystallization ages, are older than eruption ages by 103–104 yr. The youngest centre displays (226Ra/230Th) > 1, indicating that Ra–Th fractionation has taken place <8000 yr bp. There is a positive correlation between (226Ra/230Th) and (238U/230Th) ratios for rocks of the youngest centre, indicating that the Ra enrichment and the U enrichment probably occurred during the same event. Closed-system fractionation of observed mineral phases cannot alone explain the U-series disequilibria although it may have contributed to other compositional features of the rhyolites. The degree of U enrichment is related to major and trace element variations in the rhyolites as a whole, in that there is a correlation with peralkalinity and thus with incompatible trace element abundances, in particular Nb, Rb and Zr. There is a good correlation between (238U/230Th) and pre-eruptive F contents but not pre-eruptive H2O contents, consistent with previous suggestions that the rhyolites formed by halogen-fluxed melting of the crust. Compositional variations between groups of rhyolites are related to heterogeneity of the crustal source rocks, degree of partial melting(and thus residual mineralogy) and the composition and abundance of metasomatic fluids.

AB - The Olkaria complex is a recent, peralkaline rhyolite field in the Kenya Rift Valley close to the axial region of the Kenya Dome. U–Th disequilibrium was measured by -spectrometry in whole rocks and mineral separates from seven geographically and compositionally distinct groups (centres) of rhyolites. Forty-three whole-rock samples show variable Th/U ratios (2.8–6.2) and a large range of (238U/232Th) ratios (0.5–1.1); 79% of the rhyolites show U excess. Rocks from some centres plot entirely to the left or right of the equiline, whereas some centres straddle it. Internal isochrons give U–Th ages of between 14.6+2.2–2.1 and 36.2+2.6–2.6 ka (2) respectively for the Gorge Farm centre and 50.5+7.9–7.3ka for the Broad Acres centre. These ages, interpreted as phenocryst crystallization ages, are older than eruption ages by 103–104 yr. The youngest centre displays (226Ra/230Th) > 1, indicating that Ra–Th fractionation has taken place <8000 yr bp. There is a positive correlation between (226Ra/230Th) and (238U/230Th) ratios for rocks of the youngest centre, indicating that the Ra enrichment and the U enrichment probably occurred during the same event. Closed-system fractionation of observed mineral phases cannot alone explain the U-series disequilibria although it may have contributed to other compositional features of the rhyolites. The degree of U enrichment is related to major and trace element variations in the rhyolites as a whole, in that there is a correlation with peralkalinity and thus with incompatible trace element abundances, in particular Nb, Rb and Zr. There is a good correlation between (238U/230Th) and pre-eruptive F contents but not pre-eruptive H2O contents, consistent with previous suggestions that the rhyolites formed by halogen-fluxed melting of the crust. Compositional variations between groups of rhyolites are related to heterogeneity of the crustal source rocks, degree of partial melting(and thus residual mineralogy) and the composition and abundance of metasomatic fluids.

KW - U–Th disequilibrium

KW - crystallization ages

KW - pre-eruptive volatiles

KW - crustal source rocks

KW - metasomatic fluids

U2 - 10.1093/petroj/38.2.277

DO - 10.1093/petroj/38.2.277

M3 - Journal article

VL - 38

SP - 277

EP - 297

JO - Journal of Petrology

JF - Journal of Petrology

SN - 1460-2415

IS - 2

ER -

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