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Chemical composition of basalts from ODP Leg 115 (1989)

Fisk, Martin R ; Duncan, Robert A ; Baxter, Alistair N ; [weitere]

PANGAEA

In: Supplement to: Fisk, Martin R; Duncan, Robert A; Baxter, Alistair N; Greenough, John D; Hargraves, Robert B; Tatsumi, Yoshiyuki; Shipboard Scientific Party (1989): Reunion hotspot magma chemistry over the past 65 m.y.: Results from Leg 115 of the Ocean Drilling Program. Geology, 17(10), 934-937, https://doi.org/10.1130/0091-7613(1989)017%3C0934:RHMCOT%3E2.3.CO;2

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Publikationsdatum: 2024-01-09

Beschreibung: Leg 115 of the Ocean Drilling Program recovered basalts from four locations along the hotspot track that leads from the Deccan flood basalts in India to Reunion Island in the western Indian Ocean (Sites 706, 707, 713, and 715). The drilled basalts range in age from 35 Ma (Site 706) to 64 Ma (Site 707), and including the Deccan basalts (66 to 68 Ma), Mauritius Island (0.2 to 8 Ma), and Reunion Island (0 to 2 Ma), seven sites are provided for sampling the volcanic record of the 5000-km-long hotspot track. Chemical and age comparisons indicate that Site 707 lavas correlate with basalt units near the top of the Deccan flood basalt sequence. The lavas of Site 715 (55 to 60 Ma) are most similar to the islands of Mauritius and Reunion. Site 713 basalts (48 Ma) are similar to the earliest lavas of the Deccan province, and Site 706 basalts are intermediate in chemistry between those of central Indian spreading-ridge basalts and Reunion. Differences in lava compositions along the hotspot track can be related to variable mixing of plume and asthenospheric mantle, depending on the changing position of spreading-ridge segments and the hotspot during the opening of the Indian Ocean. Alternatively, time-dependent changes in the composition of hotspot melts may be due to a decrease in partial melting of a heterogeneous plume or to intrinsic changes in the composition of material supplied by the plume.

Schlagwort(e): 115-706; 115-707; 115-713; 115-715; COMPCORE; Composite Core; Indian Ocean; Joides Resolution; Lakshadweep Sea; Leg115; Ocean Drilling Program; ODP; South Indian Ridge, South Indian Ocean

Materialart: Dataset

Format: application/zip, 4 datasets

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Noble metal abundances in ODP Leg 115 basalts (Table 1) (1990)

Greenough, John D ; Fryer, Brian J

PANGAEA

In: Supplement to: Greenough, John D; Fryer, Brian J (1990): Distribution of gold, palladium, platinum, rhodium, ruthenium, and iridium in Leg 115 hotspot basalts: implications for magmatic processes. In: Duncan, RA; Backmann, J; Peterson, LC; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 115, 71-84, https://doi.org/10.2973/odp.proc.sr.115.128.1990

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Publikationsdatum: 2024-01-09

Beschreibung: A comparison of 50 basalts recovered at Sites 706, 707, 713, and 715 along the Reunion hotspot trace during Ocean Drilling Program Leg 115 in the Indian Ocean shows that seafloor alteration had little effect on noble metal concentrations (Au, Pd, Pt, Rh, Ru, and Ir), determined by inductively coupled plasma-mass spectrometry (ICP-MS), which generally tend to decrease with magma evolution. Their compatible-element behavior may be related to the precipitation of Ir-Os-based alloys, chromite, sulfides, and/or olivine and clinopyroxene in some combination. The simplest explanation indicates silicate control of concentrations during differentiation. Basalts from the different sites show varying degrees of alkalinity. Noble metal abundances tend to increase with decreasing basalt alkalinity (i.e., with increasing percentages of mantle melting), indicating that the metals behave as compatible elements during mantle melting. The retention of low-melting-point Au, Pd, and Rh in mantle sulfides, which mostly dissolve before significant proportions of Ir-Os-based alloys melt, explains increasing Pd/Ir ratios with decreasing alkalinity (increasing melting percentages) in oceanic basalts. High noble metal concentrations in Indian Ocean basalts (weighted averages of Au, Pd, Rh, Pt, Ru, and Ir in Leg 115 basalts are 3.2, 8.1, 0.31, 7.3, 0.22, and 0.11 ppb, respectively), compared with basalts from some other ocean basins, may reflect fundamental primary variations in upper- mantle noble metal abundances

Schlagwort(e): 115-706A; 115-706C; 115-707C; 115-713A; 115-715A; DRILL; Drilling/drill rig; DSDP/ODP/IODP sample designation; Event label; Gold; Indian Ocean; Iridium; Joides Resolution; Lakshadweep Sea; Leg115; Lithologic unit/sequence; Ocean Drilling Program; ODP; Palladium; Platinum; Rhodium; Ruthenium; Sample code/label; South Indian Ridge, South Indian Ocean

Materialart: Dataset

Format: text/tab-separated-values, 390 data points

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(Table 1) Chemical composition of basalts from ODP Site 115-706 (1989)

Fisk, Martin R ; Duncan, Robert A ; Baxter, Alistair N ; [weitere]

PANGAEA

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Schlagwort(e): 115-706; Aluminium oxide; Barium; Calcium oxide; Calculated; Cerium; Chromium; COMPCORE; Composite Core; Copper; Iron oxide, Fe2O3; Joides Resolution; Leg115; Lithologic unit/sequence; Loss of ignition analysis; Loss on ignition; Magnesium oxide; Manganese oxide; Nickel; Niobium; Number of observations; Ocean Drilling Program; ODP; Phosphorus pentoxide; Potassium oxide; Rubidium; Silicon dioxide; Sodium oxide; South Indian Ridge, South Indian Ocean; Strontium; Sum; Titanium dioxide; Vanadium; X-ray fluorescence (XRF); Yttrium; Zinc; Zirconium

Materialart: Dataset

Format: text/tab-separated-values, 78 data points

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(Table 1) Chemical composition of basalts from ODP Site 115-713 (1989)

Fisk, Martin R ; Duncan, Robert A ; Baxter, Alistair N ; [weitere]

PANGAEA

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Schlagwort(e): 115-713; Aluminium oxide; Barium; Calcium oxide; Calculated; Cerium; Chromium; COMPCORE; Composite Core; Copper; Indian Ocean; Iron oxide, Fe2O3; Joides Resolution; Leg115; Lithologic unit/sequence; Loss of ignition analysis; Loss on ignition; Magnesium oxide; Manganese oxide; Nickel; Niobium; Number of observations; Ocean Drilling Program; ODP; Phosphorus pentoxide; Potassium oxide; Rubidium; Silicon dioxide; Sodium oxide; Strontium; Sum; Titanium dioxide; Vanadium; X-ray fluorescence (XRF); Yttrium; Zinc; Zirconium

Materialart: Dataset

Format: text/tab-separated-values, 78 data points

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(Table 1) Chemical composition of basalts from ODP Site 115-715 (1989)

Fisk, Martin R ; Duncan, Robert A ; Baxter, Alistair N ; [weitere]

PANGAEA

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Publikationsdatum: 2024-01-09

Schlagwort(e): 115-715; Aluminium oxide; Barium; Calcium oxide; Calculated; Cerium; Chromium; COMPCORE; Composite Core; Copper; Iron oxide, Fe2O3; Joides Resolution; Lakshadweep Sea; Leg115; Lithologic unit/sequence; Magnesium oxide; Manganese oxide; Nickel; Niobium; Number of observations; Ocean Drilling Program; ODP; Phosphorus pentoxide; Potassium oxide; Rubidium; Silicon dioxide; Sodium oxide; Strontium; Sum; Titanium dioxide; Vanadium; X-ray fluorescence (XRF); Yttrium; Zinc; Zirconium

Materialart: Dataset

Format: text/tab-separated-values, 75 data points

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(Table 1) Chemical composition of basalts from ODP Site 115-707 (1989)

Fisk, Martin R ; Duncan, Robert A ; Baxter, Alistair N ; [weitere]

PANGAEA

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Publikationsdatum: 2024-01-09

Schlagwort(e): 115-707; Aluminium oxide; Barium; Calcium oxide; Calculated; Cerium; Chromium; COMPCORE; Composite Core; Copper; Iron oxide, Fe2O3; Joides Resolution; Leg115; Lithologic unit/sequence; Loss of ignition analysis; Loss on ignition; Magnesium oxide; Manganese oxide; Nickel; Niobium; Number of observations; Ocean Drilling Program; ODP; Phosphorus pentoxide; Potassium oxide; Rubidium; Silicon dioxide; Sodium oxide; South Indian Ridge, South Indian Ocean; Strontium; Sum; Titanium dioxide; Vanadium; X-ray fluorescence (XRF); Yttrium; Zinc; Zirconium

Materialart: Dataset

Format: text/tab-separated-values, 104 data points

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Digitale Medien

Evidence for volatile-influenced differentiation in a layered alkali basalt flow, Penghu Islands, Taiwan (1999)

Greenough, John D. ; Lee, Chi-Yu ; Fryer, Brian J.

Springer

Bulletin of volcanology 60 (1999), S. 412-424

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ISSN: 1432-0819

Schlagwort(e): Key words Alkali basalt ; Segregation veins ; Trace element geochemistry ; Differentiation ; Modelling ; Volatiles ; Penghu Islands

Quelle: Springer Online Journal Archives 1860-2000

Thema: Geologie und Paläontologie

Notizen: Abstract An approximately 20-m-thick alkali basalt flow on the Penghu Islands contains ∼20 cm thick, horizontally continuous (〉50 m), vesicular layers separated by ∼1.5 m of massive basalt in its upper 8.5 m. The three layers contain ocelli-like "vesicles" filled with nepheline and igneous carbonate. They are coarse grained and enriched in incompatible elements relative to the massive basalt with which they form sharp contacts. These vesicular layers (segregation veins) formed when residual liquid in the underlying crystal mush was forced (gas filter pressing) or siphoned into three thermally induced horizontal cracks that opened successively in the advancing crystal mush of the flow's upper crust. Most vesicular layer trace elements can be modelled by residual melt extraction after 25–40% fractional crystallization of massive basalt underlying each layer. Sulphur, Cl, As, Zn, Pb, K, Na, Rb, and Sr show large concentration changes between the top, middle, and bottom layers, with each vesicular and underlying massive basalt forming a chemically distinct "pair." The large changes between layers are difficult to account for by crystal fractionation alone, because other incompatible elements (e.g., La, Sm, Yb, Zr, Nb) and the major elements change little. The association of these elements (S, Cl, etc.) with "fluids" in various geologic environments suggests that volatiles influenced differentiation, perhaps by moving alkali, alkaline earth, and chalcophile elements as magma-dissolved volatile complexes. Volatiles may have also led to large grain sizes in the segregation veins by lowering melt viscosities and raising diffusion rates. The chemical variability between layers indicates that a convection and concentration mechanism acted within the flow. The specific process cannot be determined, but different rates of vesicle plume rise (through the flow) and/or accumulation in the upper crust's crystal mush might account for the chemical pairing and extreme variations in Cl, S, As, and C. This study emphasizes the importance of sampling vesicular rocks in flows. It also suggests that volatiles play important physical and chemical roles in rapidly differentiating mafic magmas in processes decoupled from crystal fractionation.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/s004450050241

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