Petrography and the REE-composition of apatite in the Paleoproterozoic Pilgujärvi Sedimentary Formation, Pechenga Greenstone Belt, Russia

Joosu, Lauri; Lepland, Aivo; Kreitsmann, Timmu; Üpraus, Kärt; Paiste, Päärn; Martin, Adam P.; Kirsimäe, Kalle

doi:10.1016/j.gca.2016.04.043

Cited by 27 publications

(11 citation statements)

References 61 publications

(69 reference statements)

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“…Secondly, apatite is more likely than zircon to represent first-cycle detritus as it is prone to dissolution at source by acidic meteoric and pedogenic waters (Morton & Hallsworth, 1999). Despite being prone to dissolution at source (Joosu et al 2016) apatite is found in non-trivial abundance in nearly all Quaternary sediments (Nechaev & Isphording, 1993) and, because it is stable during diagenesis (due to the liberation of organic P and P adsorbed onto the surface of clay minerals; e.g. Bouch et al 2002), the detrital apatite signal is likely to be preserved once buried.…”

Section: A New Approachmentioning

confidence: 99%

On the track of a Scottish impact structure: a detrital zircon and apatite provenance study of the Stac Fada Member and wider Stoer Group, NW Scotland

et al. 2019

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The Stac Fada Member of the Stoer Group, within the Torridonian succession of NW Scotland, is a melt-rich, impact-related deposit that has not been conclusively correlated with any known impact structure. However, a gravity low approximately 50 km east of the preserved Stac Fada Member outcrops has recently been proposed as the associated impact site. We investigate the location of the impact structure through a provenance study of detrital zircon and apatite in five samples from the Stoer Group. Our zircon U–Pb data are dominated by Archaean grains (> 2.5 Ga), consistent with earlier interpretations that the detritus was largely derived from local Lewisian Gneiss Complex, whereas the apatite data (the first for the Stoer Group) display a single major peak at c. 1.7 Ga, consistent with regional Laxfordian metamorphism. The almost complete absence of Archaean-aged apatite is best explained by later heating of the > 2.5 Ga Lewisian basement (the likely source region) above the closure temperature of the apatite U–Pb system (c. 375–450°C). The U–Pb age distributions for zircon and apatite show no significant variation with stratigraphic height. This may be interpreted as evidence that there was no major change in provenance during the course of deposition of the Stoer Group or, if there was any significant change, the different source regions were characterized by similar apatite and zircon U–Pb age populations. Consequently, the new data do not provide independent constraints on the location of the structure associated with the Stac Fada Member impact event.

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Section: A New Approachmentioning

confidence: 99%

On the track of a Scottish impact structure: a detrital zircon and apatite provenance study of the Stac Fada Member and wider Stoer Group, NW Scotland

et al. 2019

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“…Measurements of the REEs and Y in 2.5-3.7 Ga-old BIFs and metacherts (e.g., Bolhar et al 2004Bolhar et al , 2005Nishizawa et al 2005;Hofmann et al 2013) as well as in apatite (Lepland et al 2002;Nishizawa et al 2004;Joosu et al 2015Joosu et al , 2016Wudarska et al 2018) show that they contain "sea water fingerprints" with a Y anomaly and flat REE distribution patterns, identical to the pattern found in modern sea water (Elderfield and Greaves 1982). The Y anomaly seems to be present in geological records throughout the entire Precambrian, both after and prior to the great oxidation event (GOE) and up to the Eoarchean (Joosu et al 2015(Joosu et al , 2016Wudarska et al 2018). However, unlike modern seawater, the sedimentary rocks prior to the GOE are characterized by a lack of a negative Ce anomaly, which implies anoxic conditions (e.g., Lepland et al 2002;Joosu et al 2015Joosu et al , 2016Wudarska et al 2018), whereas a positive Eu anomaly indicates significant hydrothermal input into the Archaean oceans (Veizer et al 1989).…”

Section: Apatite Formation/transformation Pathwaysmentioning

confidence: 99%

“…The Y anomaly seems to be present in geological records throughout the entire Precambrian, both after and prior to the great oxidation event (GOE) and up to the Eoarchean (Joosu et al 2015(Joosu et al , 2016Wudarska et al 2018). However, unlike modern seawater, the sedimentary rocks prior to the GOE are characterized by a lack of a negative Ce anomaly, which implies anoxic conditions (e.g., Lepland et al 2002;Joosu et al 2015Joosu et al , 2016Wudarska et al 2018), whereas a positive Eu anomaly indicates significant hydrothermal input into the Archaean oceans (Veizer et al 1989). Due to the mafic melt differentiation rules, apatite crystallizes as one of the latest phases, and therefore they exhibit a negative Eu anomaly (Puchelt and Emmermann 1976).…”

Section: Apatite Formation/transformation Pathwaysmentioning

confidence: 99%

“…Many papers have studied phosphates of Precambrian age (e.g., Mojzsis et al 1996;Lepland et al 2002Lepland et al , 2013Nishizawa et al 2004Nishizawa et al , 2005Blake et al 2010;Joosu et al 2015Joosu et al , 2016Alibert 2016;Wudarska et al 2018) with the scope to deduce their primary formation conditions. In the oldest known supracrustal rocks from the Isua Supracrustal Belt (≈ 3.7 Ga) (Moorbath et al 1973;Nutman et al 1997), metamorphism (e.g., Rosing et al 1996;Rollinson 2003) caused obliteration of primordial isotopic signatures (Wudarska et al 2018), whereas REE signatures have been partially preserved (Lepland et al 2002;Wudarska et al 2018).…”

Section: Introductionmentioning

confidence: 99%

“…The structure and its transformation were investigated by transmission electron microscopy (TEM), and an auxiliary tool was cathodoluminescence (CL). Paleoproterozoic apatite from the Zaonega formation is used as a reference material, giving insight into the relationship between the primary/secondary signatures resulting from the formation/transformation of the crystals (Joosu et al 2015(Joosu et al , 2016.…”

Section: Introductionmentioning

confidence: 99%

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Archaean phosphates: a case study of transformation processes in apatite from the Barberton greenstone belt

Birski

Słaby

Wirth

et al. 2019

Contrib Mineral Petrol

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Multiple tools have been used to determine the sensitivity of phosphates from the early Archaean Barberton greenstone belt to transformation. The assessment of the degree of transformation is crucial for verifying data about the parameters of the paleo-environment. From the obtained results, three generations of phosphates can be distinguished. Group A is observed in cherts and banded iron formation BIF early-generation fluor-hydroxyapatite that precipitated from seawater. It is characterized by flat rare earth element (REE) patterns with a positive Eu anomaly and high Y/Ho ratio in the range of 54-70. Apatites in this group lack any visible indicators of secondary alterations at the micro-and nanoscales. Fourier transform infrared spectra indicate that these apatites are relatively rich in water, and, due to cationic substitution, their OH-stretching regions exhibit complex ordering and numerous component bands. The characteristics observed in the cherts and silicified felsic volcaniclastics of group B imply advanced metasomatic alteration. They exhibit light and heavy REE depletion and an absence of water in the halogen site. Nanoscale investigations reveal cracks, pores, nanofluid inclusions and nanochannellike structures, as well as inclusions. Group C is represented by igneous-derived apatites that partially reflect their igneous origin. The phosphates are predominantly fluorapatite with typical magmatic apatite REE distribution patterns. Imaging at the micro-and nanoscales indicates that they partially preserve the signature of igneous origin. It seems that some of the analyzed apatite partially preserved their primordial features; therefore, they might be used for the reconstruction of Archaean abiotic systems.

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The Characterization and Mineralogical Studies of a New Type of Rare Earth Ore in Southwest China to Evaluate Processing Methods

Zeng

Mao

et al. 2022

JOM

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Petrography and the REE-composition of apatite in the Paleoproterozoic Pilgujärvi Sedimentary Formation, Pechenga Greenstone Belt, Russia

Cited by 27 publications

References 61 publications

On the track of a Scottish impact structure: a detrital zircon and apatite provenance study of the Stac Fada Member and wider Stoer Group, NW Scotland

On the track of a Scottish impact structure: a detrital zircon and apatite provenance study of the Stac Fada Member and wider Stoer Group, NW Scotland

Archaean phosphates: a case study of transformation processes in apatite from the Barberton greenstone belt

The Characterization and Mineralogical Studies of a New Type of Rare Earth Ore in Southwest China to Evaluate Processing Methods

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