Plate-driven extension and convergence along the East Gondwana active margin: Late Silurian–Middle Devonian tectonics of the Lachlan Fold Belt, southeastern Australia

Fergusson, C. L.

doi:10.1080/08120099.2010.535852

Cited by 8 publications

(11 citation statements)

References 84 publications

(172 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Similar lateritic profiles are developed over other ultramafic-mafic rocks in Australia (Anand and Paine, 2002), with most of the weathering profile directly inherited from the parent rock except for the transported level. The depth of the profile indicates that the weathering occurred over long time scales, possibly starting as early as 430 million years ago (Fergusson, 2010), in a stable tectonic context. Bulk assays show that Sc concentration increases upward, from ca.…”

Section: Characteristics Of the Lateritic Depositmentioning

confidence: 99%

Scandium speciation in a world-class lateritic deposit

Chassé¹,

Griffin²,

O’Reilly³

et al. 2016

Geochem. Persp. Let.

View full text Add to dashboard Cite

aerospace and automotive industries. In solid oxide fuel cells, the addition of Sc to the electrolyte improves conductivity and lowers the operating temperature, extending fuel cell life.Despite a crustal abundance of ca. 22 ppm (Rudnick and Gao, 2014), comparable to common elements such as copper or lead, current Sc production is limited to 10 t to 15 t per year (U.S. Geological Survey, 2016). The large ratio of ionic radius to charge of Sc 3+ hinders the concentration of scandium during most geochemical processes (Samson and Chassé, 2016). A notable exception concerns lateritic deposits developed over ultramafic-mafic rocks where Sc concentrations up to 100 ppm make it a potential by-product (Aiglsperger et al., 2016;Maulana et al., 2016). Recently, lateritic deposits with Sc concentrations high enough to mine as a primary product have been reported in Eastern Australia (Jaireth et al., 2014). Among these, the Syerston-Flemington deposit contains about 1350 t of Sc at an average concentration of 434 ppm Sc (Pursell, 2016), providing a century-long resource at the present levels of world consumption.We present the first data on Sc speciation in lateritic deposits by combining quantitative mineralogy, geochemical analysis and X-ray absorption near-edge structure (XANES) spectroscopy on drill-core samples from the lateritic profile of the Syerston-Flemington deposit. The results explain the geochemical conditions required to form such exceptional Sc concentrations and improve our understanding of the geochemical behaviour of this under-explored element. Geological ContextIn Eastern Australia, lateritic profiles developed under seasonally dry humid tropical climatic conditions that resulted in intensive weathering during the Tertiary; the present occurrences are often erosional remnants of fossil laterite (Milnes et al., 1987). The Syerston-Flemington deposit (Fig. 1a and Table S-1) is part of the lateritic cover developed over the Tout complex, an ultramafic-mafic 'Alaskan-type' intrusive complex in the Lachlan Fold Belt (Johan et al., 1989). Scandium anomalies have been found over a body of nearly pure clinopyroxenite (Fig. S-1), with Sc concentrations (ca. 80 ppm; Table S-3) twice as high as those in typical mantle clinopyroxenites (Samson and Chassé, 2016). Similar concentrations (60 ppm to 80 ppm) occur in other 'Alaskan-type' clinopyroxenites (Burg et al., 2009) and in clinopyroxenes from ocean-island basalts (Dorais, 2015). This suggests the accumulation of clinopyroxene in subvolcanic feeder conduits during fractional crystallisation of a mantle-derived melt. Anomalies of Sc concentration in the parent rock result from specific conditions of formation and are not shared by all ultramafic-mafic bedrocks. Scandium (Sc) has unique properties, highly valued for many applications. Future supply is expected to rely on unusually high-grade (up to 1000 ppm) lateritic Sc ores discovered in Eastern Australia. To understand the origin of such exceptional concentrations, we investigated Sc speciation in one of these d...

show abstract

Section: Characteristics Of the Lateritic Depositmentioning

confidence: 99%

Scandium speciation in a world-class lateritic deposit

Chassé¹,

Griffin²,

O’Reilly³

et al. 2016

Geochem. Persp. Let.

View full text Add to dashboard Cite

show abstract

“…Following intrusion of plutons related to the Benambran Orogeny, such as the Dido Tonalite and Gem Park Granite in the Greenvale Province and Anakie Province respectively, no evidence has been found for any Silurian igneous activity or sedimentation in the Thomson Orogen. This contrasts with the Lachlan Orogen where there was widespread Middle to Late Silurian sedimentation and igneous activity (Glen, 2005;Fergusson, 2010). The Mossman Orogen in north Queensland also has a substantial Silurian succession deposited in the Broken River Province following the Benambran Orogeny in a forearc setting (Henderson et al, 2011.…”

Section: D Late Ordovician -Early Silurian Benambran Orogeny and Sumentioning

confidence: 72%

“…Major shortening and thickening of the crust occurred during the Benambran Orogeny at 450-425 Ma, with voluminous granitoid emplacement in its eastern part. Unlike the Delamerian Orogen, the Lachlan Orogen experienced a complex history post-dating the Benambran Orogeny with periods of extension and successor basin development separated by episodes of compression mainly during Tabberabberan (~390-370 Ma) and Kanimblan (~340 Ma) orogenesis (Glen, 2005;Fergusson, 2010).…”

Section: Introductionmentioning

confidence: 99%

Early Palaeozoic continental growth in the Tasmanides of northeast Gondwana and its implications for Rodinia assembly and rifting

Fergusson

Henderson

2015

Gondwana Research

View full text Add to dashboard Cite

“…We wish to take issue with only one aspect of the way he has tackled a difficult task and draw his attention to a paper (Rossiter & Gray 2008), which was published in this journal, and should have been considered in his discussion of the role of laterally displaced fragments. Fergusson (2010) argues against the hypothesis of large-scale strike-slip displacement along a Baragwanath Transform as proposed by VandenBerg et al (2000) and Willman et al (2002). He suggests that any Baragwanath Transform lying beneath the eastern faulted margin of the Melbourne Zone must curve in an improbable manner to continue up the eastern margin of the Hay-Booligal Zone ( Figure 1).…”

mentioning

confidence: 90%