An isotopically enriched mantle component in the source of Rodrigues, Réunion volcanic hotspot

[1]  J. Day,et al.  Mantle sources of ocean islands basalts revealed from noble gas isotope systematics , 2021, Chemical Geology.

[2]  R. Carlson,et al.  Combined Lithophile‐Siderophile Isotopic Constraints on Hadean Processes Preserved in Ocean Island Basalt Sources , 2021, Geochemistry, Geophysics, Geosystems.

[3]  D. Weis,et al.  Fine‐Scale Structure of Earth's Deep Mantle Resolved Through Statistical Analysis of Hawaiian Basalt Geochemistry , 2020, Geochemistry, Geophysics, Geosystems.

[4]  A. Bouvier,et al.  Formation of the Ce-Nd mantle array: Crustal extraction vs. recycling by subduction , 2020, Earth and Planetary Science Letters.

[5]  I. Vlastelic,et al.  A trace of recycled continental crust in the Réunion hotspot , 2019, Chemical Geology.

[6]  M. Boyet,et al.  New Constraints on the Origin of the EM‐1 Component Revealed by the Measurement of the La‐Ce Isotope Systematics in Gough Island Lavas , 2019, Geochemistry, Geophysics, Geosystems.

[7]  R. Carlson,et al.  A sulfide perspective on iron isotope fractionation during ocean island basalt petrogenesis , 2019, Geochimica et Cosmochimica Acta.

[8]  M. Richards,et al.  Delivery of deep-sourced, volatile-rich plume material to the global ridge system , 2018, Earth and Planetary Science Letters.

[9]  G. Barruol,et al.  SKS splitting in the Western Indian Ocean from land and seafloor seismometers: Plume, plate and ridge signatures , 2018, Earth and Planetary Science Letters.

[10]  A. Hofmann,et al.  Recycled ancient ghost carbonate in the Pitcairn mantle plume , 2018, Proceedings of the National Academy of Sciences.

[11]  R. Carlson,et al.  Hadean silicate differentiation preserved by anomalous 142Nd/144Nd ratios in the Réunion hotspot source , 2018, Nature.

[12]  D. Hilton,et al.  The trace element and Sr-Nd-Pb isotope geochemistry of Juan Fernandez lavas reveal variable contributions from a high- 3 He/ 4 He mantle plume , 2018 .

[13]  M. Wiedenbeck,et al.  Archaean zircons in Miocene oceanic hotspot rocks establish ancient continental crust beneath Mauritius , 2017, Nature Communications.

[14]  L. Gurioli,et al.  Origin and fate of sulfide liquids in hotspot volcanism (La Réunion): Pb isotope constraints from residual Fe–Cu oxides , 2016 .

[15]  C. Devey,et al.  Sulfur and lead isotopic evidence of relic Archean sediments in the Pitcairn mantle plume , 2016, Proceedings of the National Academy of Sciences.

[16]  G. Rümpker,et al.  The crustal structure beneath Mauritius from teleseismic P receiver functions: Oceanic or continental? , 2016 .

[17]  C. Chauvel,et al.  High-precision lead isotopes and stripy plumes: Revisiting the Society chain in French Polynesia , 2016 .

[18]  S. Werner,et al.  A Mantle-derived Origin for Mauritian Trachytes , 2016 .

[19]  L. Taylor,et al.  Early mantle heterogeneities in the Réunion hotspot source inferred from highly siderophile elements in cumulate xenoliths , 2016 .

[20]  K. Farley,et al.  A radiogenic isotopic (He-Sr-Nd-Pb-Os) study of lavas from the Pitcairn hotspot: Implications for the origin of EM-1 (enriched mantle 1) , 2015 .

[21]  D. Vergani,et al.  The Shallow Plumbing System of Piton de la Fournaise Volcano (La Réunion Island, Indian Ocean) Revealed by the Major 2007 Caldera-Forming Eruption , 2014 .

[22]  F. Corfu,et al.  A Precambrian microcontinent in the Indian Ocean , 2013 .

[23]  A. Stracke Earth's heterogeneous mantle: A product of convection-driven interaction between crust and mantle , 2012 .

[24]  A. Gannoun,et al.  Osmium isotope systematics of historical lavas from Piton de la Fournaise (Réunion Island, Indian Ocean) , 2012, Contributions to Mineralogy and Petrology.

[25]  R. Duncan,et al.  Evolution of shield-building and rejuvenescent volcanism of Mauritius , 2011 .

[26]  B. Murton,et al.  Helium isotope variations between Réunion Island and the Central Indian Ridge (17°–21°S): New evidence for ridge–hot spot interaction , 2011 .

[27]  E. Lepekhina,et al.  Younger and older zircons from rocks of the oceanic lithosphere in the Central Atlantic and their geotectonic implications , 2010 .

[28]  T. Staudacher,et al.  Cannibalism of olivine-rich cumulate xenoliths during the 1998 eruption of Piton de la Fournaise (La Réunion hotspot): Implications for the generation of magma diversity , 2010 .

[29]  M. Willbold,et al.  Formation of enriched mantle components by recycling of upper and lower continental crust , 2010 .

[30]  D. Weis,et al.  Effects of acid leaching on the Sr‐Nd‐Hf isotopic compositions of ocean island basalts , 2010 .

[31]  J. Dyment,et al.  Time scales of melt extraction revealed by distribution of lava composition across a ridge axis , 2010 .

[32]  D. Weis,et al.  Leaching systematics and matrix elimination for the determination of high‐precision Pb isotope compositions of ocean island basalts , 2009 .

[33]  C. Deniel,et al.  Pb isotope geochemistry of Piton de la Fournaise historical lavas , 2009 .

[34]  S. Goldstein,et al.  Osmium isotopes in Grande Comore lavas: A new extreme among a spectrum of EM-type mantle endmembers , 2009 .

[35]  J. Blichert‐Toft,et al.  Crustal Contamination of Mantle-derived Magmas within Piton de la Fournaise Volcano, Réunion Island , 2009 .

[36]  P. V. Keken,et al.  A multiple-system study of the geochemical evolution of the mantle with force-balanced plates and thermochemical effects , 2008 .

[37]  F. Albarède,et al.  Pb, Hf and Nd isotope compositions of the two Réunion volcanoes (Indian Ocean): A tale of two small-scale mantle “blobs”? , 2008 .

[38]  A. Peltier,et al.  Short-term (1998–2006) fluctuations of Pb isotopes at Piton de la Fournaise volcano (Reunion Island): Origins and constraints on the size and shape of the magma reservoir , 2007 .

[39]  A. Hofmann,et al.  Correlated trace element-Pb isotope enrichments in Indian MORB along 18-20°S, Central Indian Ridge , 2006 .

[40]  M. Willbold,et al.  Trace element composition of mantle end‐members: Implications for recycling of oceanic and upper and lower continental crust , 2006 .

[41]  A. Hofmann,et al.  GeoReM: A New Geochemical Database for Reference Materials and Isotopic Standards , 2005 .

[42]  Claude J. Allègre,et al.  Os isotope systematics in Fogo Island: Evidence for lower continental crust fragments under the Cape Verde Southern Islands , 2005 .

[43]  J. Blichert‐Toft,et al.  Geochemistry of Mauritius and the origin of rejuvenescent volcanism on oceanic island volcanoes , 2005 .

[44]  B. Murton,et al.  Heterogeneity in southern Central Indian Ridge MORB: Implications for ridge–hot spot interaction , 2005 .

[45]  S. Hart,et al.  Major and trace element composition of the depleted MORB mantle (DMM) , 2005 .

[46]  K. Uto,et al.  Systematic Variation of Sr-, Nd- and Pb- Isotopes with Time in Lavas of Mauritius, Reunion Hotspot , 2004 .

[47]  J. Baker,et al.  Pb isotopic analysis of standards and samples using a 207Pb–204Pb double spike and thallium to correct for mass bias with a double-focusing MC-ICP-MS , 2004 .

[48]  K. Farley,et al.  Recycled metasomatized lithosphere as the origin of the Enriched Mantle II (EM2) end‐member: Evidence from the Samoan Volcanic Chain , 2004 .

[49]  B. Luais Temporal changes in Nd isotopic composition of Piton de la Fournaise magmatism (Réunion Island, Indian Ocean) , 2004 .

[50]  A. Hofmann Sampling mantle heterogeneity through oceanic basalts: Isotopes and trace elements , 2003 .

[51]  J. Mahoney,et al.  Geochemistry of Lavas from Mauritius, Indian Ocean: Mantle Sources and Petrogenesis , 2003 .

[52]  R. Carlson,et al.  A Chemical and Multi-Isotope Study of the Western Cape Olivine Melilitite Province, South Africa: Implications for the Sources of Kimberlites and the Origin of the HIMU Signature in Africa , 2002 .

[53]  C. Devey,et al.  The role of sediment recycling in EM-1 inferred from Os, Pb, Hf, Nd, Sr isotope and trace element systematics of the Pitcairn hotspot , 2002 .

[54]  J. Escartín,et al.  Mid-Atlantic Ridge–Azores hotspot interactions: along-axis migration of a hotspot-derived event of enhanced magmatism 10 to 4 Ma ago , 1999 .

[55]  W. J. Morgan,et al.  Two-stage melting and the geochemical evolution of the mantle: a recipe for mantle plum-pudding , 1999 .

[56]  F. Albarède,et al.  The Geochemical Regimes of Piton de la Fournaise Volcano (Reunion) During the Last 530 000 Years , 1997 .

[57]  A. Hofmann,et al.  Mantle geochemistry: the message from oceanic volcanism , 1997, Nature.

[58]  S. Milner,et al.  Isotope characteristics of the Okenyenya igneous complex, northwestern Namibia: constraints on the composition of the early Tristan plume and the origin of the EM 1 mantle component , 1996 .

[59]  J. Mahoney,et al.  Drillhole lavas from the northwestern Deccan Traps, and the evolution of Réunion hotspot mantle , 1995 .

[60]  W. McDonough,et al.  The composition of the Earth , 1995 .

[61]  C. Devey,et al.  Geochemistry of the Pitcairn seamounts, I: source character and temporal trends , 1993 .

[62]  A. Hofmann,et al.  himu-em: The French Polynesian connection , 1992 .

[63]  S. Hart,et al.  Mantle Plumes and Entrainment: Isotopic Evidence , 1992, Science.

[64]  D. McKenzie,et al.  Partial melt distributions from inversion of rare earth element concentrations , 1991 .

[65]  J. Lupton,et al.  Extreme temporal homogeneity of helium isotopes at Piton de la Fournaise, Réunion Island , 1990, Nature.

[66]  Albrecht W. Hofmann,et al.  Chemical differentiation of the Earth: the relationship between mantle, continental crust, and oceanic crust , 1988 .

[67]  F. Albarède,et al.  Modelling the Recent Geochemical Evolution of the Piton de la Fournaise Volcano, Reunion Island, 1931–1986 , 1988 .

[68]  M. Fisk,et al.  Geochemical and experimental study of the genesis of magmas of Reunion Island, Indian Ocean , 1988 .

[69]  R. W. Le Maitre,et al.  A Chemical Classification of Volcanic Rocks Based on the Total Alkali-Silica Diagram , 1986 .

[70]  S. Galer,et al.  Residence time of thorium, uranium and lead in the mantle with implications for mantle convection , 1985, Nature.

[71]  B. Upton,et al.  Petrology and geochemistry of Rodrigues Island, Indian Ocean , 1985 .

[72]  M. Tatsumoto,et al.  Partition coefficients of Hf, Zr, and ree between phenocrysts and groundmasses , 1984 .

[73]  B. Dupré,et al.  Pb–Sr isotope variation in Indian Ocean basalts and mixing phenomena , 1983, Nature.

[74]  P. Gillot,et al.  KAr chronology of the ultimate activity of piton des neiges volcano, reunion island, Indian ocean , 1982 .

[75]  W. J. Morgan Rodriguez, Darwin, Amsterdam, ..., A second type of Hotspot Island , 1978 .

[76]  A. Hofmann,et al.  An assessment of local and regional isotopic equilibrium in the mantle , 1978 .

[77]  P. Vogt Plumes, subaxial pipe flow, and topography along the Mid-Oceanic Ridge , 1976 .

[78]  A. N. Baxter Petrology of the Older Series lavas from Mauritius, Indian Ocean , 1975 .

[79]  J. Schilling Iceland Mantle Plume: Geochemical Study of Reykjanes Ridge , 1973, Nature.

[80]  P. R. Vogt,et al.  Asthenosphere motion recorded by the ocean floor south of Iceland , 1971 .

[81]  I. Mcdougall The geochronology and evolution of the young volcanic island of Réunion, Indian Ocean , 1971 .

[82]  I. Mcdougall,et al.  Isotopic Dating and Geomagnetic Polarity Studies on Volcanic Rocks from Mauritius, Indian Ocean , 1969 .

[83]  W. Wadsworth,et al.  The Petrology of Rodriguez Island, Indian Ocean , 1967 .

[84]  I. Mcdougall,et al.  Strontium Isotope Composition and Potassium–Rubidium Ratios in some Rocks from Réunion and Rodriguez, Indian Ocean , 1965, Nature.

[85]  W. Wadsworth,et al.  A Geological Reconnaissance of Rodriguez Island, Indian Ocean , 1965, Nature.

[86]  B. Hanan,et al.  Sulfide mantle source heterogeneity recorded in basaltic lavas from the Azores , 2020 .

[87]  R. Rudnick,et al.  Composition of the Continental Crust , 2014 .

[88]  T. Staudacher,et al.  Rapid Change of Lava Composition from 1998 to 2002 at Piton de la Fournaise (Reunion) Inferred from Pb Isotopes and Trace Elements: Evidence for Variable Crustal Contamination , 2005 .