Assessment of relative <scp>T</scp>i, <scp>T</scp>a, and <scp>N</scp>b (<scp>TITAN</scp>) enrichments in ocean island basalts

Peters, Bradley J.; Day, James M.D.

doi:10.1002/2014gc005506

Cited by 19 publications

(4 citation statements)

References 142 publications

(231 reference statements)

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“…These new data expand upon -and are in excellent agreement with -previously published Juan Fernandez datasets (Baker et al, 1987;Farley et al, 1993;Truong et al, 2018). Juan Fernandez lavas show enrichment relative to primitive mantle in high field strength elements (HFSE) Ti, Ta and Nb, as reported by Truong et al (2018), which are common features of most OIB (Jackson et al, 2008;Peters and Day, 2014). The majority of Robinson Crusoe and Alexander Selkirk main shield lavas show positive anomalies in Nb, Ta, Zr, and Sr, and slight negative anomalies in Y.…”

Section: Trace Element Abundancessupporting

confidence: 88%

Osmium isotope evidence for a heterogeneous 3He/4He mantle plume beneath the Juan Fernandez Islands

Paquet

Day

Castillo

2019

Geochimica et Cosmochimica Acta

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Mantle plume models have been widely applied to explain the formation of ocean island basalts (OIB), with high-3 He/ 4 He in their lavas being explained by sampling of a primitive deep mantle source. The Juan Fernandez Islands have 3 He/ 4 He (7.8-18 R A ) similar to or higher than in mid-ocean ridge basalts (MORB; 8 ± 1 R A ) and have been used to both support and refute the mantle plume hypothesis. Ambiguity regarding the origin of the Juan Fernandez Islands primarily originates from interpretation of mantle source signatures between the lava series from the two main islands, Robinson Crusoe and Alexander Selkirk. To examine this issue, we report new whole-rock and olivine separate 187 Os/ 188 Os ratios and major-, trace-, and highly siderophile-element (HSE: Re, Pd, Pt, Ru, Ir, Os) abundances. The HSE and trace element abundances in Juan Fernandez main shield lavas can be explained by up to 30% olivine removal, together with spinel crystallization at 1-5 kbar, whereas Robinson Crusoe rejuvenated lavas can be reproduced by higher-pressure fractional crystallization (up to 10 kbar). An assemblage of 30 modal % olivine and 1-5 modal % spinel, combined with the additional contribution of primary melt trapped in olivine inclusions reproduces the range of HSE compositions observed in Juan Fernandez Archipelago olivine grains. Ratios of 187 Os/ 188 Os for Juan Fernandez lavas are generally less radiogenic than global OIB and show no correlation with indices of fractionation, indicating that they reflect mantle source compositions. Younger basanite lavas from Robinson Crusoe represent rejuvenated volcanism dominantly from a depleted lithospheric mantle source ( 187 Os/ 188 Os < 0.13) mixed with a high-3 He/ 4 He component from the main shield building stage. These lavas are similar in origin and composition to other Pacific rejuvenated lavas (e.g., Samoa, Hawaii). Robinson Crusoe main shield lavas are from a high-3 He/ 4 He (>18 R A ) and enriched mantle source ( 187 Os/ 188 Os = 0.1312) similar to the 'C' or 'FOZO' component, whereas Alexander Selkirk lavas are consistent with a dominant contribution from a depleted, low-3 He/ 4 He (<10 R A ) mantle component. The mantle sources of the shield lavas yield subtle variations in Sr-Nd-Os-Pb isotope space and have no clear variations with relative or absolute abundances of the HSE or trace elements. These results are consistent with a heterogeneous mantle plume model, with initial eruption of lavas from a primitive high-3 He/ 4 He mantle source $4 million years ago (Ma) to form Robinson Crusoe Island, which also led to 3 He enrichment of the oceanic lithosphere, followed by eruption of Alexander Selkirk lavas from a more depleted mantle source at $2 Ma. Juan Fernandez lavas show that mantle heterogeneity preserved in OIB can occur over short-timescales (<2 Ma) and can impact lithospheric compositions, leading to eruption of rejuvenated lavas with unusual isotopic characteristics.

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Section: Trace Element Abundancessupporting

confidence: 88%

Osmium isotope evidence for a heterogeneous 3He/4He mantle plume beneath the Juan Fernandez Islands

Paquet

Day

Castillo

2019

Geochimica et Cosmochimica Acta

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“…For example, the distinctive Pb enrichment in arc lavas is counterbalanced by Pb depletion in oceanic basalts. More relevant to the present study is the hallmark depletion in some HFSE, particularly Nb, in arc lavas is counterbalanced by enrichment of these elements, or positive 'TITAN anomalies' (Jackson et al, 2008) that are pervasive in OIB (Peters and Day, 2014). What is also being advocated here is that although carbonatitic silicate melts have the bulk (Jenner and O'Neill, 2012) and ALL MORB (Gale et al, 2013).…”

Section: Constancy Of Ratios and 1st And 2nd Pb Paradoxes In Morbmentioning

confidence: 70%

A proposed new approach and unified solution to old Pb paradoxes

Castillo

2016

Lithos

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“…These patterns are common in Oceanic Island Basalts (OIB). Even if TITAN anomalies may be accounted for by partial melting, www.nature.com/scientificreports www.nature.com/scientificreports/ subsequent differentiations and crustal assimilations rather than deep source compositions 22 , they may still be indicative of a hotspot origin for the parental magma.…”

Section: Geochemistrymentioning

confidence: 99%

The Jurassic magmatism of the Demerara Plateau (offshore French Guiana) as a remnant of the Sierra Leone hotspot during the Atlantic rifting

Basile

Girault

Paquette

et al. 2020

Sci Rep

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We report the discovery of 173.4 Ma hotspot-related magmatic rocks in the basement of the Demerara Plateau, offshore French Guiana and Suriname. According to plate reconstructions, a single hotspot may be responsible for the magmatic formation of (1) both the Demerara Plateau (between 180 and 170 Ma) and the Guinea Plateau (circa 165 Ma) during the end of the Jurassic rifting of the Central Atlantic; (2) both Sierra Leone and Ceara Rises (mainly from 76 to 68 Ma) during the upper Cretaceous oceanic spreading of the Equatorial Atlantic ocean; (3) the Bathymetrists seamount chain since the upper Cretaceous. The present-day location of the inferred Sierra Leone hotspot should be 100 km west of the Knipovich Seamount.

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Assessment of relative Ti, Ta, and Nb (TITAN) enrichments in ocean island basalts

Cited by 19 publications

References 142 publications

Osmium isotope evidence for a heterogeneous 3He/4He mantle plume beneath the Juan Fernandez Islands

Osmium isotope evidence for a heterogeneous 3He/4He mantle plume beneath the Juan Fernandez Islands

A proposed new approach and unified solution to old Pb paradoxes

The Jurassic magmatism of the Demerara Plateau (offshore French Guiana) as a remnant of the Sierra Leone hotspot during the Atlantic rifting

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