Removal of continental lithosphere beneath the Canary archipelago revealed from a U Pb Age and Hf/O isotope study of modern sand detrital zircons
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L. Heaman | D. Pearson | Yan Luo | R. Stern | Madisen Sagan
[1] J. Budahn,et al. The antiquity of the Sahara Desert: New evidence from the mineralogy and geochemistry of Pliocene paleosols on the Canary Islands, Spain , 2019, Palaeogeography, Palaeoclimatology, Palaeoecology.
[2] A. Pourmand,et al. North African mineral dust across the tropical Atlantic Ocean: Insights from dust particle size, radiogenic Sr-Nd-Hf isotopes and rare earth elements (REE) , 2018, Aeolian Research.
[3] M. Rogov,et al. Revised Middle–Upper Jurassic strontium isotope stratigraphy , 2017 .
[4] T.-Y. Kuo. The composition of altered oceanic crust: Implications for mantle evolution , 2017 .
[5] F. Bussy,et al. Magma Differentiation in Vertical Conduits Revealed by the Complementary Study of Plutonic and Volcanic Rocks from Fuerteventura (Canary Islands) , 2016 .
[6] V. Troll,et al. The Geology of the Canary Islands , 2016 .
[7] B. John,et al. “Fingerprinting” tectono-magmatic provenance using trace elements in igneous zircon , 2015, Contributions to Mineralogy and Petrology.
[8] M. Schnabel,et al. Crustal structure variations along the NW-African continental margin: A comparison of new and existing models from wide-angle and reflection seismic data , 2014 .
[9] D. Bosch,et al. Lithospheric origin for Neogene-Quaternary Middle Atlas lavas (Morocco): Clues from trace elements and Sr-Nd-Pb-Hf isotopes , 2014 .
[10] J. van Hunen,et al. Dynamics of lithospheric thinning and mantle melting by edge‐driven convection: Application to Moroccan Atlas mountains , 2014 .
[11] A. Levander,et al. Piecewise delamination of Moroccan lithosphere from beneath the Atlas Mountains , 2014 .
[12] P. Bogaard. The origin of the Canary Island Seamount Province - New ages of old seamounts , 2013 .
[13] P. van den Bogaard. The origin of the Canary Island Seamount Province - New ages of old seamounts , 2013, Scientific Reports.
[14] S. Aciego,et al. Variable HfSrNd radiogenic isotopic compositions in a Saharan dust storm over the Atlantic: Implications for dust flux to oceans, ice sheets and the terrestrial biosphere , 2013 .
[15] J. Wooden,et al. Detrital zircon as a proxy for tracking the magmatic arc system: The California arc example , 2013 .
[16] I. Bindeman,et al. Silicic magma petrogenesis in Iceland by remelting of hydrothermally altered crust based on oxygen isotope diversity and disequilibria between zircon and magma with implications for MORB , 2012 .
[17] Y. Missenard,et al. Can Moroccan Atlas lithospheric thinning and volcanism be induced by Edge‐Driven Convection? , 2012 .
[18] I. Bindeman,et al. Oxygen isotope heterogeneity of the mantle beneath the Canary Islands: insights from olivine phenocrysts , 2011 .
[19] B. Hanan,et al. Hafnium isotopic variations in East Atlantic intraplate volcanism , 2011 .
[20] C. Romero,et al. Erosion of Cinder Cones in Tenerife by Gully Formation, Canary Islands, Spain , 2011 .
[21] B. John,et al. Uniformly mantle-like δ18O in zircons from oceanic plagiogranites and gabbros , 2011 .
[22] D. Lowry,et al. Evidence for distinct proportions of subducted oceanic crust and lithosphere in HIMU-type mantle beneath El Hierro and La Palma, Canary Islands , 2010 .
[23] W. Griffin,et al. Buoyant ancient continental mantle embedded in oceanic lithosphere (Sal Island, Cape Verde Archipelago) , 2010 .
[24] D. Hoffmann,et al. Volcano-stratigraphic and structural evolution of Brava Island (Cape Verde) based on 40Ar/39Ar, U-Th and field constraints , 2010 .
[25] D. Lowry,et al. Petrogenesis of the Eocene Tamazert Continental Carbonatites (Central High Atlas, Morocco): Implications for a Common Source for the Tamazert and Canary and Cape Verde Island Carbonatites , 2010 .
[26] J. Baker,et al. A 5 million year record of compositional variations in mantle sources to magmatism on Santiago, southern Cape Verde archipelago , 2010 .
[27] N. Youbi,et al. Petrology and K-Ar chronology of the Neogene-Quaternary Middle Atlas basaltic province, Morocco , 2010 .
[28] C. Maerschalk,et al. Chemical and mineralogical evidence of the occurrence of mantle metasomatism by carbonate-rich melts in an oceanic environment (Santiago Island, Cape Verde) , 2010 .
[29] G. Wörner,et al. Magmatic Longevity of Laacher See Volcano (Eifel, Germany) Indicated by U^Th Dating of Intrusive Carbonatites , 2010 .
[30] J. Baker,et al. Tracing the metasomatic and magmatic evolution of continental mantle roots with Sr, Nd, Hf and and Pb isotopes: A case study of Middle Atlas (Morocco) peridotite xenoliths , 2010 .
[31] J. Budahn,et al. Compositions of modern dust and surface sediments in the Desert Southwest, United States , 2009 .
[32] F. Hauff,et al. Flow of Canary mantle plume material through a subcontinental lithospheric corridor beneath Africa to the Mediterranean: Reply , 2009 .
[33] R. Vannucci,et al. Metasomatism in the Lithospheric Mantle beneath Middle Atlas (Morocco) and the Origin of Fe- and Mg-rich Wehrlites , 2009 .
[34] W. Griffin,et al. The lithospheric architecture of Africa: Seismic tomography, mantle petrology, and tectonic evolution , 2009 .
[35] W. Bach,et al. Formation and alteration of plagiogranites in an ultramafic-hosted detachment fault at the Mid-Atlantic Ridge (ODP Leg 209) , 2009 .
[36] K. David,et al. Mantle plume heterogeneity versus shallow-level interactions: A case study, the São Nicolau Island, Cape Verde archipelago , 2008 .
[37] J. Carracedo,et al. Evidence for long-term uplift on the Canary Islands from emergent Mio–Pliocene littoral deposits , 2007 .
[38] C. D. Ignacio,et al. Isotope geochemistry and FOZO mantle component of the alkaline-carbonatitic association of Fuerteventura, Canary Islands, Spain , 2006 .
[39] Carlos Segovia Fernández,et al. The submarine volcanic succession of the basal complex of Fuerteventura, Canary Islands : A model of submarine growth and emergence of tectonic volcanic islands , 2006 .
[40] E. Neumann,et al. Serpentinization and dehydration in the upper mantle beneath Fuerteventura (eastern Canary Islands): Evidence from mantle xenoliths , 2006 .
[41] T. Jeffries,et al. New data (U Pb, K Ar) on the geochronology of the alkaline-carbonatitic association of Fuerteventura, Canary Islands, Spain , 2005 .
[42] Puy Ayarza,et al. Effects of mantle upwelling in a compressional setting: the Atlas Mountains of Morocco , 2005 .
[43] S. Duggen,et al. New 40Ar / 39Ar age and geochemical data from seamounts in the Canary and Madeira volcanic provinces: Support for the mantle plume hypothesis , 2005 .
[44] Claude J. Allègre,et al. Os isotope systematics in Fogo Island: Evidence for lower continental crust fragments under the Cape Verde Southern Islands , 2005 .
[45] D. Garbe‐Schönberg,et al. Post-Collisional Transition from Subduction- to Intraplate-type Magmatism in the Westernmost Mediterranean: Evidence for Continental-Edge Delamination of Subcontinental Lithosphere , 2005 .
[46] A. Hofmann,et al. FOZO, HIMU, and the rest of the mantle zoo , 2005 .
[47] R. Schneider,et al. Provenance of present‐day eolian dust collected off NW Africa , 2005 .
[48] J. Liégeois,et al. The Hoggar swell and volcanism: Reactivation of the Precambrian Tuareg shield during Alpine convergence and West African Cenozoic volcanism , 2005 .
[49] D. Bosch,et al. Deep and High-temperature Hydrothermal Circulation in the Oman Ophiolite—Petrological and Isotopic Evidence , 2004 .
[50] Z. Homonnay,et al. H, O, Sr, Nd, and Pb isotopic evidence for recycled oceanic crust in the Transitional Volcanic Group of Fuerteventura, Canary Islands, Spain , 2004 .
[51] V. Troll,et al. Oxygen isotope composition of xenoliths from the oceanic crust and volcanic edifice beneath Gran Canaria (Canary Islands): consequences for crustal contamination of ascending magmas , 2003 .
[52] J. Valley. Oxygen Isotopes in Zircon , 2003 .
[53] W. Griffin,et al. Igneous zircon: trace element composition as an indicator of source rock type , 2002 .
[54] D. Garbe‐Schönberg,et al. Geochemistry of oceanic carbonatites compared with continental carbonatites: mantle recycling of oceanic crustal carbonate , 2002 .
[55] C. Stillman. Giant Miocene landslides and the evolution of Fuerteventura, Canary Islands , 1999 .
[56] Carlos Segovia Fernández,et al. Contributions to the chronology of the Basal Complex of Fuerteventura, Canary Islands , 1999 .
[57] K. Hoernle,et al. Os Isotope Systematics in the Canary Islands and Madeira: Lithospheric Contamination and Mantle Plume Signatures , 1999 .
[58] T. Vennemann,et al. Crustal contamination and fluid/rock interaction in the carbonatites of Fuerteventura (Canary Islands, Spain): A C, O, H isotope study , 1998 .
[59] T. Hansteen,et al. Samples from the Jurassic ocean crust beneath Gran Canaria, La Palma and Lanzarote (Canary Islands) , 1998 .
[60] G. Stampfli,et al. Mesozoic sequence of Fuerteventura (Canary Islands): Witness of Early Jurassic sea-floor spreading in the central Atlantic , 1998 .
[61] Simon Day,et al. Hotspot volcanism close to a passive continental margin: the Canary Islands , 1998, Geological Magazine.
[62] D. L. Anderson,et al. Edge-driven convection , 1998 .
[63] F. Ramdani. Geodynamic implications of intermediate-depth earthquakes and volcanism in the intraplate Atlas mountains (Morocco) , 1998 .
[64] K. Hoernle. Geochemistry of Jurassic Oceanic Crust beneath Gran Canaria (Canary Islands): Implications for Crustal Recycling and Assimilation , 1998 .
[65] A. Freundt,et al. Emplacement of ash layers related to high-grade ignimbrite P1 in the sea around Gran Canaria , 1998 .
[66] W. Uwe,et al. Oxygen isotope evidence for high temperature altered oceanic crust in the Canary plume , 1997 .
[67] G. Gruau,et al. Continental Lithospheric Contribution to Alkaline Magmatism: Isotopic (Nd, Sr, Pb) and Geochemical (REE) Evidence from Serra de Monchique and Mount Ormonde Complexes , 1997 .
[68] E. Neumann,et al. Petrogenesis of spinel harzburgite and dunite suite xenoliths from Lanzarote, eastern Canary Islands: Implications for the upper mantle , 1995 .
[69] K. Hoernle,et al. Seismic and geochemical evidence for large-scale mantle upwelling beneath the eastern Atlantic and western and central Europe , 1995, Nature.
[70] J. Cantagrel,et al. Age miocène inférieur des carbonatites de Fuerteventura (23 Ma : U-Pb zircon) et le magmatisme précoce d'une île océanique (îles Canaries) , 1993 .
[71] Antonio Cendrero,et al. Evolution of the eastern volcanic ridge of the Canary Islands based on new KAr data , 1992 .
[72] G. Tilton,et al. SrNdPb isotopic evolution of Gran Canaria: Evidence for shallow enriched mantle beneath the Canary Islands , 1991 .
[73] W. Roest,et al. Magnetic anomalies off West-Africa (20–38° N) , 1991, Marine Geophysical Researches.
[74] G. Tilton,et al. Sr-Nd-Pb isotope data for Fuerteventura (Canary Islands) basal complex and subaerial volcanics: applications to magma genesis and evolution , 1991 .
[75] F. Pineau,et al. Oxygen and hydrogen isotope studies on the basal complexes of the Canary Islands: implications on the conditions of their genesis , 1986 .
[76] G. Wissmann,et al. Petrography and K-Ar Dating of the Mazagan Granodiorite, Deep Sea Drilling Project Leg 79, Holes 544A and 547B , 1984 .
[77] 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.
[78] A. Robertson,et al. Submarine volcanic and associated sedimentary rocks of the Fuerteventura Basal Complex, Canary Islands , 1979, Geological Magazine.
[79] H. Schmincke. The Geology of the Canary Islands , 1976 .
[80] J. Fuster,et al. Basal complex of Fuerteventura (Canary Islands) is an oceanic intrusive complex with rift-system affinities , 1975, Nature.
[81] F. Anguita,et al. A propagating fracture model versus a hot spot origin for the Canary islands , 1975 .
[82] R. H. Beck,et al. Oceans, New Frontier in Exploration , 1974 .
[83] H. Schmincke,et al. Contrasting Origins of the Eastern and Western Islands of the Canarian Archipelago , 1968, Nature.