Biblioteca Digital

Geochemistry of the gabbroic lithosphere in IODP Holes 304-U1309D and 305-U1309D

**Autoria(s):** Drouin, Marion; Godard, Marguerite; Ildefonse, Benoit; Bruguier, Olivier; Garrido, Carlos J
Cobertura	MEDIAN LATITUDE: 30.085162 * MEDIAN LONGITUDE: -42.000988 * SOUTH-BOUND LATITUDE: 30.001667 * WEST-BOUND LONGITUDE: -42.001976 * NORTH-BOUND LATITUDE: 30.168658 * EAST-BOUND LONGITUDE: -42.000000
Data(s)	08/05/2009
Resumo	IODP Hole U1309D (Atlantis Massif, Mid-Atlantic Ridge 30°N) is the second deepest hole drilled into slow spread gabbroic lithosphere. It comprises 5.4% of olivine-rich troctolites (~ > 70% olivine), possibly the most primitive gabbroic rocks ever drilled at mid-ocean ridges. We present the result of an in situ trace element study carried out on a series of olivine-rich troctolites, and neighbouring troctolites and gabbros, from olivine-rich intervals in Hole U1309D. Olivine-rich troctolites display poikilitic textures; coarse-grained subhedral to medium-grained rounded olivine crystals are included into large undeformed clinopyroxene and plagioclase poikiloblasts. In contrast, gabbros and troctolites have irregularly seriate textures, with highly variable grain sizes, and locally poikilitic clinopyroxene oikocrysts in troctolites. Clinopyroxene is high Mg# augite (Mg# 87 in olivine-rich troctolites to 82 in gabbros), and plagioclase has anorthite contents ranging from 77 in olivine-rich troctolites to 68 in gabbros. Olivine has high forsterite contents (82-88 in olivine-rich troctolites, to 78-83 in gabbros) and is in Mg-Fe equilibrium with clinopyroxene. Clinopyroxene cores and plagioclase are depleted in trace elements (e.g., Ybcpx ~ 5-11 * Chondrite), they are in equilibrium with the same MORB-type melt in all studied rock-types. These compositions are not consistent with the progressively more trace element enriched (evolved) compositions expected from olivine rich primitive products to gabbros in a MORB cumulate sequence. They indicate that clinopyroxene and plagioclase crystallized concurrently, after melts having the same trace element composition, consistent with crystallization in an open system with a buffered magma composition. The slight trace element enrichments and lower Cr contents observed in clinopyroxene rims and interstitial grains results from crystallization of late-stage differentiated melts, probably indicating the closure of the magmatic system. In contrast to clinopyroxene and plagioclase, olivine is not in equilibrium with MORB, but with a highly fractionated depleted melt, similar to that in equilibrium with refractory oceanic peridotites, thus possibly indicating a mantle origin. In addition, textural relationships suggest that olivine was in part assimilated by the basaltic melts after which clinopyroxene and plagioclase crystallized (impregnation). These observations suggest a complex crystallization history in an open system involving impregnation by MORB-type melt(s) of an olivine-rich rock or mush. The documented magmatic processes suggest that olivine-rich troctolites were formed in a zone with large magmatic transfer and accumulation, similar to the mantle-crust transition zone documented in ophiolites and at fast spreading ridges.
Formato	application/zip, 8 datasets
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.780694 doi:10.1594/PANGAEA.780694
Idioma(s)	en
Publicador	PANGAEA
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
Fonte	Supplement to: Drouin, Marion; Godard, Marguerite; Ildefonse, Benoit; Bruguier, Olivier; Garrido, Carlos J (2009): Geochemical and petrographic evidence for magmatic impregnation in the oceanic lithosphere at Atlantis Massif, Mid-Atlantic Ridge (IODP Hole U1309D, 30°N). Chemical Geology, 264(1-4), 71-88, doi:10.1016/j.chemgeo.2009.02.013
Palavras-Chave	#0 = no alteration; 1= low alteration; 2 = highly altered; 3 = completely altered; 1 = fine-grained; 2 = medium-grained; 3 = coarse-grained; 304-U1309D; 305-U1309D; Al2O3; Al2O3 std dev; Alteration; Aluminium oxide; Aluminium oxide, standard deviation; An; Anorthite; Anorthite, standard deviation; An std dev; Ba; Barium; Barium, standard deviation; Ba std dev; Ca; Caesium; Caesium, standard deviation; Calcium oxide; Calcium oxide, standard deviation; CaO; CaO std dev; Ce; Cerium; Cerium, standard deviation; Ce std dev; Chromium(III) oxide; Chromium(III) oxide, standard deviation; Chromium number; Chromium number, standard deviation; Clast shape; Clinopyroxene; clinopyroxene, 0 = cumulus; 1 = poikilitic; 2 = interstitial; Cpx; Cr/(Cr + Al); Cr/(Cr+Al) std dev; Cr# = 100cationic (Cr/Cr+Al); Cr2O3; Cr2O3 std dev; Cs; Cs std dev; Depth; DEPTH, sediment/rock; DRILL; Drilling/drill rig; Dy; Dysprosium; Dysprosium, standard deviation; Dy std dev; Electron microprobe; Elements, total; Elements, total, standard deviation; Er; Erbium; Erbium, standard deviation; Er std dev; Eu; Europium; Europium, standard deviation; Eu std dev; Event; Exp304; Exp305; Fe2O3; FeO; FeO std dev; Fo; Forsterite; Forsterite, standard deviation; Fo std dev; Gadolinium; Gadolinium, standard deviation; Gd; Gd std dev; Grain size descr; Grain size description; Hafnium; Hafnium, standard deviation; Hf; Hf std dev; Ho; Holmium; Holmium, standard deviation; Ho std dev; Integrated Ocean Drilling Program / International Ocean Discovery Program; IODP; Iron oxide, Fe2O3; Iron oxide, FeO; Iron oxide, FeO, standard deviation; Joides Resolution; K2O; K2O std dev; La; LA-ICP-MS, Laser-ablation inductively coupled plasma mass spectrometer; Lanthanum; Lanthanum, standard deviation; La std dev; Lead; Lead, standard deviation; LOI; Loss on ignition; Lu; Lu std dev; Lutetium; Lutetium, standard deviation; Magnesium number; Magnesium number, standard deviation; Magnesium oxide; Magnesium oxide, standard deviation; major elements; Manganese oxide; Manganese oxide, standard deviation; mbsf; Mg/(Mg + Fe); Mg/(Mg+Fe) std dev; Mg# = 100 cationic (Mg/Mg+Fe) with all Fe as Fe2+; MgO; MgO std dev; MnO; MnO std dev; N; Na2O; Na2O std dev; Nb; Nb std dev; Nd; Nd std dev; Neodymium; Neodymium, standard deviation; Ni; Nickel; Nickel, standard deviation; Nickel oxide; Nickel oxide, standard deviation; NiO; Niobium; Niobium, standard deviation; NiO std dev; Ni std dev; Oceanic Core Complex Formation, Atlantis Massive 1; Oceanic Core Complex Formation, Atlantis Massive 2; ODP sample designation; Ol; Olivine; olivine, 0 = anhedral; 1 = more or less rounded; 2 = rounded; P2O5; Pb; Pb std dev; Phosphorus oxide; Pl; Plagioclase; plagioclase, 0 = cumulus; 1 = poikilitic; 2 = interstitial; Potassium oxide; Potassium oxide, standard deviation; Pr; Praseodymium; Praseodymium, standard deviation; Pr std dev; Rb; Rb std dev; Rock; Rock type; Rubidium; Rubidium, standard deviation; Samarium; Samarium, standard deviation; Sample amount; Sample code/label; SampleComment; Sample comment; SampleLabel; Shape; Silicon dioxide; Silicon dioxide, standard deviation; SiO2; SiO2 std dev; Sm; Sm std dev; Sodium oxide; Sodium oxide, standard deviation; Spinel; Spl; Sr; Sr std dev; Strontium; Strontium, standard deviation; Ta; Tantalum; Tantalum, standard deviation; Ta std dev; Tb; Tb std dev; Terbium; Terbium, standard deviation; Th; Thorium; Thorium, standard deviation; Th std dev; Thulium; Thulium, standard deviation; TiO2; TiO2 std dev; Titanium oxide; Titanium oxide, standard deviation; Tm; Tm std dev; total; Total std dev; trace elements; U; Uranium; Uranium, standard deviation; U std dev; V; Vanadium; Vanadium, standard deviation; V std dev; X-ray fluorescence (XRF); Y; Yb; Yb std dev; Y std dev; Ytterbium; Ytterbium, standard deviation; Yttrium; Yttrium, standard deviation; Zirconium; Zirconium, standard deviation; Zone; Zr; Zr std dev
Tipo	Dataset

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