An evaluation of element mobility in the Modderfontein ultramafic complex, Johannesburg: Origin as an Archaean ophiolite fragment or greenstone belt remnant?

Guice, George; McDonald, Iain; Hughes, Hannah S.R.; Anhaeusser, Carl R.

doi:10.1016/j.lithos.2019.02.013

Cited by 14 publications

(2 citation statements)

References 105 publications

(79 reference statements)

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“…Anomalous PGE ratios observed in the PGE‐enriched silicate melt rocks from the Hiawatha impact structure (averages of [Rh/Pt] N = 1.37, [Rh/Ru] N = 0.32 and [Pd/Pt] N = 3.23) are unusual for terrestrial rocks, but common for fractionated iron meteorites. Terrestrial candidate sources for the origin of the high (Rh/Pt) N values are depleted mantle, some komatiitic lavas or rare sulfide‐rich chromite rocks (Guice et al., 2019; Holwell & McDonald, 2006; Maier et al., 2003) with only the latter realistically likely to produce the accompanying high (Rh/Os) N and (Rh/Ir) N values. No occurrences of such lithologies are known from the exposed foreland adjacent to the Hiawatha impact structure (Nutman et al., 2008).…”

Section: Discussionmentioning

confidence: 99%

Impact melt rocks from the Late Paleocene Hiawatha impact structure, northwest Greenland

Hyde

Garde

Keulen

et al. 2023

Meteorit & Planetary Scien

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Impact melt rocks formed during hypervelocity impact events are ideal for studying impact structures. Here, we describe impact melt rock samples collected proximal to the 31 km wide 58 Ma Hiawatha impact structure, northwest Greenland, which is completely covered by the Greenland Ice Sheet. The melt rocks contain diagnostic shock indicators (e.g., planar deformation features [PDF] in quartz and shocked zircon) and form three groups based on melt textures and chemistry: (i) hypocrystalline, (ii) glassy, and (iii) carbonate-based melt rocks. The exposed foreland directly in front of the structure consists of metasedimentary successions and igneous plutons; however, the carbonate-based impactites indicate a mixed target sequence with a significant carbonate-rich component. Well-preserved organic material in some melt rocks indicates that North Greenland at the time of impact was host to abundant organic material, likely a dense high-latitude temperate forest. Geochemical signatures of platinum-group elements in selected samples indicate an extraterrestrial component and support previous identification of a highly fractionated iron impactor in glaciofluvial sand. Our results illustrate the possibility to study impact structures hidden beneath a thick ice sheet based on transported samples and this opens a new avenue for identifying other potential impact craters in Greenland and Antarctica.

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Section: Discussionmentioning

confidence: 99%

Impact melt rocks from the Late Paleocene Hiawatha impact structure, northwest Greenland

Hyde

Garde

Keulen

et al. 2023

Meteorit & Planetary Scien

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“…Linear correlations between elements considered immobile during high-temperature metamorphism (Y, Yb, Nb, Zr) are used to determine the most immobile element in the sample suite (method outlined in Guice et al, 2018Guice et al, , 2019. For the LOC samples, Y and Yb have a strong linear correlation (R 2 = 0.99), indicating minimal relative fractionation due to secondary alteration.…”

Section: Effects Of Metamorphism On Tectonomagmatic Discrimination Sc...mentioning

confidence: 99%

Forearc Variability and the Geochemical Diversity of Suprasubduction Zone Ophiolites: Insights From the Leka Ophiolite Complex, Norway

Becker,

Nelson,

Browning‐Hanson

et al. 2024

Geochem Geophys Geosyst

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New whole‐rock major and trace element geochemistry from the Leka Ophiolite Complex in Norway is presented and compared to the geochemical evolution and proposed tectonomagmatic processes recorded in the Izu‐Bonin‐Mariana system. These data demonstrate that the Leka Ophiolite Complex formed as forearc lithosphere during subduction initiation. A new high‐precision zircon U‐Pb date on forearc basalt constrains the timing of subduction initiation in the “Leka sector” of the Iapetus Ocean to 491.36 ± 0.17 Ma. The tectonomagmatic record of the Leka Ophiolite Complex captures only the earliest stages of subduction initiation and is thereby distinct from some other Appalachian–Caledonian ophiolites of similar age. The diversity of Appalachian–Caledonian ophiolite records may represent differing preservation and exposure of a variable forearc lithosphere.

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Spinel-group minerals as a record of magmatic and metamorphic processes: evidence from the highly altered Morro do Onça ultramafic suite, São Francisco Craton (Brazil)

Guice

Magalhães

Pinheiro

et al. 2022

Contrib Mineral Petrol

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An evaluation of element mobility in the Modderfontein ultramafic complex, Johannesburg: Origin as an Archaean ophiolite fragment or greenstone belt remnant?

Cited by 14 publications

References 105 publications

Impact melt rocks from the Late Paleocene Hiawatha impact structure, northwest Greenland

Impact melt rocks from the Late Paleocene Hiawatha impact structure, northwest Greenland

Forearc Variability and the Geochemical Diversity of Suprasubduction Zone Ophiolites: Insights From the Leka Ophiolite Complex, Norway

Spinel-group minerals as a record of magmatic and metamorphic processes: evidence from the highly altered Morro do Onça ultramafic suite, São Francisco Craton (Brazil)

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