Oceanic island Pb: Two-stage histories and mantle evolution
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[1] B. Dupré,et al. Isotopic and chemical effects produced in a continuously differentiating convecting Earth mantle , 1980, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[2] Shen-su Sun,et al. Lead isotopic study of young volcanic rocks from mid-ocean ridges, ocean islands and island arcs , 1980, Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[3] V. Murthy,et al. A Nd isotopic study of the Kerguelen Islands - Inferences on enriched oceanic mantle sources , 1980 .
[4] G. Manhès,et al. Lead-lead systematics, the “age of the Earth” and the chemical evolution of our planet in a new representation space , 1979 .
[5] M. Tatsumoto. Isotopic composition of lead in oceanic basalt and its implication to mantle evolution , 1978 .
[6] R. Steiger,et al. Subcommission on geochronology: Convention on the use of decay constants in geo- and cosmochronology , 1977 .
[7] P. Hamilton,et al. Variations in143Nd/144Nd and87Sr/86Sr ratios in oceanic basalts , 1977 .
[8] R. Pankhurst,et al. Nature and Development of Basalt Magma Sources Beneath Iceland and the Reykjanes Ridge , 1976 .
[9] D. Unruh,et al. Lead Isotopic Composition and Uranium, Thorium, and Lead Concentrations in Sediments and Basalts from the Nazca Plate , 1976 .
[10] S. Church,et al. Lead isotope relations in oceanic Ridge basalts from the Juan de Fuca-Gorda Ridge area N.E. Pacific Ocean , 1975 .
[11] J. Schilling,et al. Mantle Plume Mixing Along the Reykjanes Ridge Axis: Lead Isotopic Evidence , 1975, Science.
[12] B. Jahn,et al. Lead and strontium isotopes in post-glacial basalts from Iceland , 1975, Nature.
[13] G. Hanson,et al. Evolution of the mantle: Geochemical evidence from alkali basalt , 1975 .
[14] G. Hanson,et al. Origin of Ross Island basanitoids and limitations upon the heterogeneity of mantle sources for alkali basalts and nephelinites , 1975 .
[15] J. Lancelot,et al. Origin of carbonatitic magma in the light of the Pb-U-Th isotope system , 1974 .
[16] N. Watkins,et al. Kerguelen: Continental Fragment or Oceanic Island? , 1974 .
[17] S. Hart,et al. Basalts from Iceland and Along the Reykjanes Ridge: Sr Isotope Geochemistry , 1973 .
[18] M. Tatsumoto,et al. Time Differences in the Formation of Meteorites as Determined from the Ratio of Lead-207 to Lead-206 , 1973, Science.
[19] A. Mussett,et al. Episodic uranium‐lead models and the interpretation of variations in the isotopic composition of lead in rocks , 1973 .
[20] V. Oversby. Genetic relations among the volcanic rocks of Réunion: chemical and lead isotopic evidence , 1972 .
[21] J. Lancelot,et al. Isotopic composition of lead in volcanic rocks from Tenerife, Canary Islands , 1971 .
[22] V. Oversby. Lead in oceanic islands: Faial, Azores and Trindade , 1971 .
[23] P. W. Gast,et al. ISOTOPIC COMPOSITION OF LEAD FROM OCEANIC ISLANDS. , 1970 .
[24] N. Draper,et al. Applied Regression Analysis. , 1967 .
[25] M. Tatsumoto. Genetic Relations of Oceanic Basalts as Indicated by Lead Isotopes , 1966, Science.
[26] G. Tilton,et al. Isotopic Composition of Lead and Strontium from Ascension and Gough Islands , 1964, Science.
[27] G. Tilton,et al. Age of the Earth. , 1955, Science.
[28] P. Vidal,et al. “Kerguelen: Continental fragment or oceanic island?”: Petrology and isotopic geochemistry evidence , 1979 .
[29] C. Langmuir,et al. A general mixing equation with applications to Icelandic basalts , 1978 .
[30] G. Faure. Principles of isotope geology , 1977 .
[31] C. Allègre. Comportement Des Systemes U-Th-Pb Dans Le Manteau Superieur Et Modele d'Evolution De Ce Dernier Au Cours Des Temps Geologiques , 1968 .
[32] G. Wasserburg. Geochronology, and isotopic data bearing on development of the continental crust , 1966 .