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W2160773634 endingPage "1820" @default.
W2160773634 startingPage "1805" @default.
W2160773634 abstract "Oxygen isotope ratios determined by laser fluorination analysis on olivine, clinopyroxene and plagioclase separated from 31 Oligocene flood basalts and rhyolites from Yemen display small but significant variations (5·1–6·2‰ for olivine; 5·5–6·9‰ for clinopyroxene; 5·9–6·9‰ for plagioclase). The range in δ18O values exceeds: (1) the analytical reproducibility of the technique (±0·15‰; 2 SD); (2) the range expected for minerals that would have crystallized from uncontaminated oceanic basalts or primary magmas in equilibrium with mantle peridotite; (3) the range in melt values and equilibrium phenocryst compositions that could be produced by fractional crystallization of these magmas. Samples with the highest δ18O values exhibit increases in 87Sr/86Sr ratio, decreases in 143Nd/144Nd ratio, and increasing Pb isotopic heterogeneity. Samples with the lowest δ18O values have radiogenic isotope ratios that approach those inferred for the Afar plume. The oxygen isotope data provide unequivocal evidence that assimilation of heterogeneous lower and upper Pan-African crust was the primary control on isotopic variation in this continental flood basalt province. Moreover, new radiogenic and oxygen isotope data for Pan-African crustal samples from Yemen have appropriate crustal isotopic compositions to generate the observed isotopic variations in the volcanic rocks. A near-primary high-MgO basalt with low εNd and extreme Pb isotope ratios contains strongly zoned clinopyroxene crystals that range from green cores through to greenish brown, brownish green and dark brown or black rims. Handpicked crystals of each colour type display the following correlated range in isotope ratios: 87Sr/86Sr = 0·7036–0·7049; 143Nd/144Nd = 0·5129–0·5127; 206Pb/204Pb = 18·6–17·9; δ18O = 5·67–6·86‰. The Sr–Nd–Pb–O isotope variations are attributed to rapid assimilation of ∼25% Pan-African continental crust by hot mafic magma during clinopyroxene crystallization. Contamination in this flood basalt province varied from combined assimilation and fractional crystallization to rapid assimilation of crust by hot mafic magmas with little fractionation. Laser fluorination oxygen isotope analysis of mineral separates allows small differences in δ18O to be correlated with radiogenic isotope data and is a powerful tool for evaluating the relative roles of enriched lithospheric mantle and continental crust in suites of continental flood basalts." @default.
W2160773634 created "2016-06-24" @default.
W2160773634 creator A5062405434 @default.
W2160773634 date "2000-12-01" @default.
W2160773634 modified "2023-10-17" @default.
W2160773634 title "Resolving Crustal and Mantle Contributions to Continental Flood Volcanism, Yemen; Constraints from Mineral Oxygen Isotope Data" @default.
W2160773634 cites W14108998 @default.
W2160773634 cites W1540531038 @default.
W2160773634 cites W1965410050 @default.
W2160773634 cites W1966368758 @default.
W2160773634 cites W1967172981 @default.
W2160773634 cites W1970753225 @default.
W2160773634 cites W1971796795 @default.
W2160773634 cites W1973308233 @default.
W2160773634 cites W1973582422 @default.
W2160773634 cites W1974731988 @default.
W2160773634 cites W1975440125 @default.
W2160773634 cites W1977749755 @default.
W2160773634 cites W1978529528 @default.
W2160773634 cites W1979082610 @default.
W2160773634 cites W1981378138 @default.
W2160773634 cites W1982444849 @default.
W2160773634 cites W1986408395 @default.
W2160773634 cites W1989169264 @default.
W2160773634 cites W1991512417 @default.
W2160773634 cites W2001292144 @default.
W2160773634 cites W2010771702 @default.
W2160773634 cites W2014338623 @default.
W2160773634 cites W2024575502 @default.
W2160773634 cites W2026704077 @default.
W2160773634 cites W2027453112 @default.
W2160773634 cites W2030326409 @default.
W2160773634 cites W2035689900 @default.
W2160773634 cites W2037910358 @default.
W2160773634 cites W2040019457 @default.
W2160773634 cites W2040301347 @default.
W2160773634 cites W2041193569 @default.
W2160773634 cites W2045238651 @default.
W2160773634 cites W2047358966 @default.
W2160773634 cites W2047567126 @default.
W2160773634 cites W2049566684 @default.
W2160773634 cites W2051870429 @default.
W2160773634 cites W2058884294 @default.
W2160773634 cites W2060442623 @default.
W2160773634 cites W2060696521 @default.
W2160773634 cites W2065724128 @default.
W2160773634 cites W2066941117 @default.
W2160773634 cites W2069437882 @default.
W2160773634 cites W2070120765 @default.
W2160773634 cites W2071097585 @default.
W2160773634 cites W2071336893 @default.
W2160773634 cites W2075076173 @default.
W2160773634 cites W2076407501 @default.
W2160773634 cites W2077269300 @default.
W2160773634 cites W2079694199 @default.
W2160773634 cites W2079989549 @default.
W2160773634 cites W2081382446 @default.
W2160773634 cites W2083227715 @default.
W2160773634 cites W2086173842 @default.
W2160773634 cites W2087420220 @default.
W2160773634 cites W2111165174 @default.
W2160773634 cites W2112764221 @default.
W2160773634 cites W2138522501 @default.
W2160773634 cites W2160672259 @default.
W2160773634 cites W2303593638 @default.
W2160773634 cites W2328689481 @default.
W2160773634 cites W2335501200 @default.
W2160773634 cites W2530595160 @default.
W2160773634 cites W609600942 @default.
W2160773634 doi "https://doi.org/10.1093/petrology/41.12.1805" @default.
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