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Mixing of magmas from enriched and depleted mantle sources in the northeast Pacific: West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L. ; Allan, James F. ; Leybourne, Matthew I. ; [et al.]

Springer

Contributions to mineralogy and petrology 120 (1995), S. 337-357

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ISSN: 1432-0967

Source: Springer Online Journal Archives 1860-2000

Topics: Geosciences

Notes: Abstract The 50 km-long West Valley segment of the northern Juan de Fuca Ridge is a young, extension-dominated spreading centre, with volcanic activity concentrated in its southern half. A suite of basalts dredged from the West Valley floor, the adjacent Heck Seamount chain, and a small near-axis cone here named Southwest Seamount, includes a spectrum of geochemical compositions ranging from highly depleted normal (N-) MORB to enriched (E-) MORB. Heck Seamount lavas have chondrite-normalized La/Smcn∼0.3, 87Sr/86Sr=0.70235–0.70242, and 206Pb/204Pb=18.22–18.44, requiring a source which is highly depleted in trace elements both at the time of melt generation and over geologic time. The E-MORB from Southwest Seamount have La/Smcn∼1.8, 87Sr/86Sr=0.70245–0.70260, and 206Pb/204Pb=18.73–19.15, indicating a more enriched source. Basalts from the West Valley floor have chemical compositions intermediate between these two end-members. As a group, West Valley basalts from a two-component mixing array in element-element and element-isotope plots which is best explained by magma mixing. Evidence for crustal-level magma mixing in some basalts includes mineral-melt chemical and isotopic disequilibrium, but mixing of melts at depth (within the mantle) may also occur. The mantle beneath the northern Juan de Fuca Ridge is modelled as a plum-pudding, with “plums” of enriched, amphibole-bearing peridotite floating in a depleted matrix (DM). Low degrees of melting preferentially melt the “plums”, initially removing only the amphibole component and producing alkaline to transitional E-MORB. Higher degrees of melting tap both the “plums” and the depleted matrix to yield N-MORB. The subtly different isotopic compositions of the E-MORBs compared to the N-MORBs require that any enriched component in the upper mantle was derived from a depleted source. If the enriched component crystallized from fluids with a DM source, the “plums” could evolve to their more evolved isotopic composition after a period of 1.5–2.0 Ga. Alternatively, the enriched component could have formed recently from fluids with a less-depleted source than DM, such as subducted oceanic crust. A third possibility is that enriched material might be dispersed as “plums” throughout the upper mantle, transported from depth by mantle plumes.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00306512

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(Table 1) Major element concentration of plagioclase from basalts of the West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: Aluminium oxide; Anorthite; Calcium oxide; Depth, bathymetric; DEPTH, sediment/rock; Depth, top/min; Dredge; DRG; DSDP/ODP/IODP sample designation; Electron microprobe (EMP); Geographic name/locality; Iron oxide, FeO; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; LATITUDE; Latitude 2; LONGITUDE; Longitude 2; Magnesium oxide; Ocean Drilling Program; ODP; Potassium oxide; Rock type; Sample code/label; Silicon dioxide; Sodium oxide

Type: Dataset

Format: text/tab-separated-values, 189 data points

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(Table 2a) Major and trace element concentrations of basalts from the West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: Aluminium oxide; Barium; Calcium oxide; Cerium; Chromium; Cobalt; Depth, bathymetric; DEPTH, sediment/rock; Depth, top/min; Dredge; DRG; DSDP/ODP/IODP sample designation; Electron microprobe (EMP); Europium; Geographic name/locality; Hafnium; Instrumental neutron activation analysis (INAA) (Reimann et al., 1998); Iron oxide, FeO; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; Lanthanum; LATITUDE; Latitude 2; Lead-206/Lead-204 ratio; Lead-207/Lead-204 ratio; Lead-208/Lead-204 ratio; LONGITUDE; Longitude 2; Lutetium; Magnesium number; Magnesium oxide; Manganese oxide; Mass spectrometer thermal ionization; Neodymium; Neodymium-143/Neodymium-144 ratio; Nickel; Niobium; Ocean Drilling Program; ODP; Phosphorus pentoxide; Potassium oxide; Rock type; Rubidium; Samarium; Sample code/label; Scandium; Silicon dioxide; Sodium oxide; Strontium; Strontium-87/Strontium-86 ratio; Tantalum; Terbium; Thorium; Titanium dioxide; Uranium; Vanadium; X-ray fluorescence core scanner (XRF); Ytterbium; Yttrium; Zinc; Zirconium

Type: Dataset

Format: text/tab-separated-values, 657 data points

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(Table 1) Major element concentration of olivine from basalts of the West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: Calcium oxide; Depth, bathymetric; DEPTH, sediment/rock; Depth, top/min; Dredge; DRG; DSDP/ODP/IODP sample designation; Electron microprobe (EMP); Geographic name/locality; Iron oxide, FeO; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; LATITUDE; Latitude 2; LONGITUDE; Longitude 2; Magnesium number; Magnesium oxide; Manganese oxide; Nickel oxide; Ocean Drilling Program; ODP; Rock type; Sample code/label; Silicon dioxide

Type: Dataset

Format: text/tab-separated-values, 172 data points

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(Table 1) Major element concentration of Cr-spinel from basalts of the West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: Aluminium oxide; Calcium oxide; Chromium(III) oxide; Chromium number; Depth, bathymetric; DEPTH, sediment/rock; Depth, top/min; Dredge; DRG; DSDP/ODP/IODP sample designation; Electron microprobe (EMP); Geographic name/locality; Iron 3+ number; Iron oxide, Fe2O3; Iron oxide, FeO; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; LATITUDE; Latitude 2; LONGITUDE; Longitude 2; Magnesium number; Magnesium oxide; Manganese oxide; Ocean Drilling Program; ODP; Rock type; Sample code/label; Silicon dioxide; Titanium dioxide

Type: Dataset

Format: text/tab-separated-values, 297 data points

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(Table 2b) Isotopic composition for basalts from the West Valley segment, Juan de Fuca Ridge (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

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Publication Date: 2024-01-09

Keywords: Depth, bathymetric; DEPTH, sediment/rock; Depth, top/min; Dredge; DRG; DSDP/ODP/IODP sample designation; Geographic name/locality; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; LATITUDE; Lead-206/Lead-204 ratio; Lead-207/Lead-204 ratio; Lead-208/Lead-204 ratio; LONGITUDE; Magnesium number; Mass spectrometer thermal ionization; Neodymium-143/Neodymium-144 ratio; Ocean Drilling Program; ODP; Rock type; Sample code/label; Strontium-87/Strontium-86 ratio

Type: Dataset

Format: text/tab-separated-values, 110 data points

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Element analyses and isotope composition of basalts from the West Valley segment, Juan de Fuca Ridge, northeast Pacific (1995)

Cousens, Brian L ; Allan, James F ; Leybourne, Matthew I ; [et al.]

PANGAEA

In: Supplement to: Cousens, Brian L; Allan, James F; Leybourne, Matthew I; Chase, R L; van Wagoner, Nancy (1995): Mixing of magmas from enriched and depleted mantle sources in the northeast Pacific: West Valley segment, Juan de Fuca Ridge. Contributions to Mineralogy and Petrology, 120(3-4), 337-357, https://doi.org/10.1007/BF00306512

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Publication Date: 2024-01-09

Description: The 50 km-long West Valley segment of the northern Juan de Fuca Ridge is a young, extension-dominated spreading centre, with volcanic activity concentrated in its southern half. A suite of basalts dredged from the West Valley floor, the adjacent Heck Seamount chain, and a small near-axis cone here named Southwest Seamount, includes a spectrum of geochemical compositions ranging from highly depleted normal (N-) MORB to enriched (E-) MORB. Heck Seamount lavas have chondrite-normalized La/Sm en -0.3, 87Sr/86Sr = 0.70235 - 0.70242, and 206Pb/204Pb = 18.22 - 18.44, requiring a source which is highly depleted in trace elements both at the time of melt generation and over geologic time. The E-MORB from Southwest Seamount have La/Sm en -1.8, 87Sr/86Sr = 0.70245 - 0.70260, and 206Pb/204Pb = 18.73 - 19.15, indicating a more enriched source. Basalts from the West Valley floor have chemical compositions intermediate between these two end-members. As a group, West Valley basalts from a two-component mixing array in element-element and element-isotope plots which is best explained by magma mixing. Evidence for crustal-level magma mixing in some basalts includes mineral-melt chemical and isotopic disequilibrium, but mixing of melts at depth (within the mantle) may also occur. The mantle beneath the northern Juan de Fuca Ridge is modelled as a plum-pudding, with "plums" of enriched, amphibole-bearing peridotite floating in a depleted matrix (DM). Low degrees of melting preferentially melt the "plums", initially removing only the amphibole component and producing alkaline to transitional E-MORB. Higher degrees of melting tap both the "plums" and the depleted matrix to yield N-MORB. The subtly different isotopic compositions of the E-MORBs compared to the N-MORBs require that any enriched component in the upper mantle was derived from a depleted source. If the enriched component crystallized from fluids with a DM source, the "plums" could evolve to their more evolved isotopic composition after a period of 1.5-2.0 Ga. Alternatively, the enriched component could have formed recently from fluids with a lessdepleted source than DM, such as subducted oceanic crust. A third possibility is that enriched material might be dispersed as "plums" throughout the upper mantle, transported from depth by mantle plumes.

Keywords: Dredge; DRG; Juan_de_Fuca_Ridge; Juan de Fuca Ridge, North Pacific Ocean; Ocean Drilling Program; ODP

Type: Dataset

Format: application/zip, 5 datasets

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Lithium isotopes and Cu-Au concentrations in hydrothermal alterations from Solfatara Volcano, Campi Flegrei caldera complex, and La Fossa volcano, Vulcano Island, Italy: Insights into epithermal ore forming environments (2021)

Nadeau, Olivier ; Mick, Emily ; Robidoux, Philippe ; [et al.]

Elsevier

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Publication Date: 2021-01-26

Description: Hydrothermally-altered rocks collected at Solfatara volcano, Campi Flegrei caldera complex, Italy, are comparable to zones of steam-heated alterations found at low sulfidation epithermal deposits, and volcanic gases collected at Solfatara have temperatures and C-O-H isotopic compositions akin to those forming low sulfidation epithermal deposits. By contrast, hydrothermal alterations collected at La Fossa volcano, Vulcano island, Italy, are comparable to zones of residual vuggy silica formed in high sulfidation epithermal deposits, and volcanic gases collected at La Fossa have temperatures and C-O-H isotopic compositions comparable to those forming high sulfidation epithermal deposits. At Solfatara, amorphous and hydrous opal-A is responsible for shifts in δ7Li values, from +2.2‰ in fresher rocks, to −3.6‰ in most altered rocks, with increases in Au and Cu concentrations (up to 3 ppb and 96 ppm). The increase in Au and Cu concentrations in progressively-altered rocks resulted from the transport of Cu-Au in magmatic-hydrothermal fluids and their partitioning into pyrite, Fe oxides, phyllosilicates, sulfates, and/or opal-A. It is proposed that the combination of opal-A, decreases in δ7Li values, and increases in Cu and Au concentrations represent an exploration vector for low sulfidation epithermal veins. At La Fossa, α-cristobalite is responsible for shifts in δ7Li values, ranging from −0.9‰ in least-altered rocks, to +4.7‰ in most altered rocks, with decreases in Au-Cu concentrations. The decrease in Au and Cu concentrations in progressively-altered rocks may have resulted from the metasomatism of pyrite and Fe oxides, the dissolution of clinopyroxene and opal, and the invasion of the samples by α-cristobalite. The combination of α-cristobalite, increases in δ7Li values, and decreases in Cu and Au concentrations are proposed as proxies for potential high sulfidation epithermal disseminations. Alternating phases of high eruptive activity and quiescent degassing at volcanoes generally, and at Solfatara and La Fossa specifically, suggest that the physicochemical conditions of individual subvolcanic hydrothermal systems should also be alternating, between conditions that are characteristic of low- and high sulfidation epithermal ore-forming environments, and that the related zones of silicification should be alternating between low δ7Li and high Cu-Au values dominated by opal-A, and higher δ7Li and lower Cu-Au values dominated by α-cristobalite.

Description: Published

Description: 103934

Description: 3V. Proprietà chimico-fisiche dei magmi e dei prodotti vulcanici

Description: JCR Journal

Keywords: Active ore-forming processes ; Opalization and cristobalization ; Lithium isotopes ; High and low sulfidation epithermal Au-Cu ore deposits ; La Fossa, Vulcano, Italy ; Solfatara, Campi Flegrei, Italy ; 04.08. Volcanology ; 05.04. Instrumentation and techniques of general interest ; Geochemistry

Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)

Type: article

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Trench-perpendicular Geochemical Variation Between two Adjacent Kermadec Arc Volcanoes Rumble II East and West: the Role of the Subducted Hikurangi Plateau in Element Recycling in Arc Magmas (2016)

Timm, Christian ; Leybourne, Matthew I. ; Hoernle, Kaj ; [et al.]

Oxford Univ. Press

In: Journal of Petrology, 57 (7). pp. 1335-1360.

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Publication Date: 2019-02-01

Description: Little is known about the effects that subducting an oceanic large igneous province (LIP) has on the petrogenesis of submarine arc volcanoes and their geochemical composition. The southern Kermadec arc represents a rare example where an LIP—the Hikurangi Plateau—is currently subducting and where its effect on mantle composition, element recycling and arc volcanism can be studied. We present mineral chemistry and whole-rock major and trace element, and Sr–Nd–Pb isotope data from samples recovered from the southern Kermadec arc volcanoes Rumble II East and Rumble II West, together with shipboard gravity and magnetic measurements. The Rumble II volcanoes (including a volcanic cone ∼10 km further west) form an ∼23 km long arc–backarc transect located ∼250 km north of New Zealand above the subducting Hikurangi Plateau. Although only a short distance apart, rocks from the two volcanoes have different mineral and whole-rock geochemical compositions. Lavas from Rumble II East are predominantly basaltic and contain primitive olivine phenocrysts (≤Fo91), high-Mg# clinopyroxene (≤96) and anorthitic plagioclase (≤An97). Geochemically these lavas are very diverse and cover a spectrum from low Th/Yb (〈0·15) at high Ba/Th (〉1014) to higher Th/Yb (〉0·15) at lower Ba/Th (〈844). This spectrum, together with 206Pb/204Pb and 143Nd/144Nd in the range of 18·74–18·83 and 0·51309–0·51298 respectively (at similar to slightly elevated 87Sr/86Sr), suggests a mantle wedge that has undergone previous melt extraction and significant fluid addition from the subducting Pacific Plate and that contains sediment and HIMU-type Hikurangi Plateau components. The geochemistry of the sediment–HIMU-type components is exemplified in an olivine pyroxenite (e.g. 206Pb/204Pb = 20·02; 87Sr/86Sr = 0·70516; 143Nd/144Nd = 0·5126). We propose that the olivine pyroxenite formed through melt or fluid–rock metasomatism and represents the first direct evidence of a near Moho arc mantle rock that shows the imprint from a subducting HIMU-type (Hikurangi) seamount. Conversely, lavas from Rumble II West and the cone ∼10 km to the west are generally more silica rich than Rumble II East lavas and mainly contain plagioclase with less ortho- and clinopyroxene + olivine phenocrysts. The low Ba/Th (〈470) and 206Pb/204Pb (〈18·74), a range of 143Nd/144Nd (0·51297–0·51307) and elevated Th/Yb (0·13–0·39) in these lavas can best be explained by minor sediment input into a less depleted mantle wedge. In addition, the geochemical composition of the Rumble II West lavas does not require involvement of a Hikurangi component, placing a spatial limit on Hikurangi material influencing regional melt generation beneath the backarc. Supported by a gravity model requiring two distinct magma chambers, the different geochemical compositions of Rumble II East and West lavas are inconsistent with a shared magma plumbing system. The different geochemical compositions of lavas from the two Rumble II volcanoes furthermore demonstrate that across-arc geochemical heterogeneities can occur within a few kilometres and may originate from both a geochemically heterogeneous mantle wedge and Moho transition layer, recording inherited geochemical heterogeneities beneath the volcanoes.

Type: Article , PeerReviewed

Format: text

DOI: 10.1093/petrology/egw042

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Louisville seamount subduction and its implication on mantle flow beneath the central Tonga–Kermadec arc (2013)

Timm, Christian ; Bassett, Daniel ; Graham, Ian J. ; [et al.]

Nature Publishing Group

In: Nature Communications, 4 (Article 1720).

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Publication Date: 2019-04-30

Description: Subduction of intraplate seamounts beneath a geochemically depleted mantle wedge provides a seldom opportunity to trace element recycling and mantle flow in subduction zones. Here we present trace element and Sr, Nd and Pb isotopic compositions of lavas from the central Tonga–Kermadec arc, west of the contemporary Louisville–Tonga trench intersection, to provide new insights into the effects of Louisville seamount subduction. Elevated 206Pb/204Pb, 208Pb/204Pb, 86Sr/87Sr in lavas from the central Tonga–Kermadec arc front are consistent with localized input of subducted alkaline Louisville material (lavas and volcaniclastics) into sub-arc partial melts. Furthermore, absolute Pacific Plate motion models indicate an anticlockwise rotation in the subducted Louisville seamount chain that, combined with estimates of the timing of fluid release from the subducting slab, suggests primarily trench-normal mantle flow beneath the central Tonga–Kermadec arc system.

Type: Article , PeerReviewed

Format: text

DOI: 10.1038/ncomms2702

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