2020
DOI: 10.1111/bre.12469
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Constraining recycled detritus in quartz‐rich sandstones: Insights from a multi‐proxy provenance study of the Mid‐Carboniferous, Clare Basin, western Ireland

Abstract: Quartz‐rich sandstones can be produced through multiple sedimentary processes, potentially acting in combination, such as extensive sedimentary recycling or intense chemical weathering. Determining the provenance of such sedimentary rocks can be challenging due to low amounts of accessory minerals, the fact that the primary mineralogy may have been altered during transport, storage or burial and difficulties in the recognition of polycyclic components. This study uses zircon and apatite U‐Pb geochronology, apa… Show more

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Cited by 18 publications
(25 citation statements)
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References 158 publications
(276 reference statements)
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“…The most recent provenance model suggests that sandstones of the Tullig Cyclothem are derived from multiple sources from the south and south‐west, with fresh input from peri‐Gondwanan terranes and recycling of Laurentian and Caledonian material through Devonian sedimentary rocks. This previous study ascribes the compositional maturity of these sandstones to sedimentary recycling rather than the chemical weathering that could have occurred during transport (Nauton‐Fourteu et al, 2020). Apatite U‐Pb geochronology coupled with trace element data suggest that Caledonian (potentially Donegal and Galway granites) apatite has survived recycling through the Old Red Sandstones of the Dingle Basin (Nauton‐Fourteu et al, 2020).…”
Section: Geological Backgroundmentioning
confidence: 94%
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“…The most recent provenance model suggests that sandstones of the Tullig Cyclothem are derived from multiple sources from the south and south‐west, with fresh input from peri‐Gondwanan terranes and recycling of Laurentian and Caledonian material through Devonian sedimentary rocks. This previous study ascribes the compositional maturity of these sandstones to sedimentary recycling rather than the chemical weathering that could have occurred during transport (Nauton‐Fourteu et al, 2020). Apatite U‐Pb geochronology coupled with trace element data suggest that Caledonian (potentially Donegal and Galway granites) apatite has survived recycling through the Old Red Sandstones of the Dingle Basin (Nauton‐Fourteu et al, 2020).…”
Section: Geological Backgroundmentioning
confidence: 94%
“…The Clare Basin is located above the Iapetus Suture, which represents the collision between Avalonia‐Baltica and Laurentia during the late Silurian (Fairey et al, 2018; Waldron et al, 2014). The subsidence of the basin is generally believed to be linked with the reactivation of Iapetus Suture structures; however, there are contrasting models to explain how this occurred (Martinsen et al, 2017; Nauton‐Fourteu et al, 2020; Pyles, 2008; Wignall & Best, 2016).…”
Section: Geological Backgroundmentioning
confidence: 99%
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