Deep- versus shallow-marine sandstone provenance in the mid-Carboniferous Clare Basin, western Ireland

Nauton‐Fourteu, Martin; Tyrrell, Shane; Chew, David; Pfaff, Katharina; Jobe, Zane R.

doi:10.1144/jgs2020-216

Cited by 4 publications

(2 citation statements)

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“…Carbonate production became widespread across much of northwestern Europe during the Mississippian, with terrigenous sediment deposition limited to localised drainage systems. Large-scale drainage systems, such as that feeding the Pennine Basin in Britain [53], and the smaller-scale systems supplying the Shannon Basin in Ireland [54,55] evolved subsequently in the Pennsylvanian.…”

Section: Paleoenvironment and Geological Setting Of The Mullaghmore S...mentioning

confidence: 99%

“…Apatite trace element data were acquired simultaneously with the U-Pb isotope data and followed the same procedure. Trace element masses measured were: 55 Mn, 88 Sr, 89 Y, 90 Zr, 139 La, 140 Ce, 141 Pr, 146 Nd, 147 Sm, 153 Eu, 157 Gd, 159 Tb, 163 Dy, 165 Ho, 166 Er, 169 Tm, 172 Yb, 175 Lu, 232 Th and 238 U. NIST612 was the primary reference material employed during trace element data reduction, and an aliquot of Durango apatite was the secondary reference material [100]. Apatite trace elements were reduced using the Iolite Trace Element DRS, employing the internal elemental standardisation approach of Woodhead et al [101] using 43 Ca, set to the stoichiometric content of apatite (40 wt%).…”

Section: Apatite and Zircon Analysismentioning

confidence: 99%

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Wildfires and Monsoons: Cryptic Drivers for Highly Variable Provenance Signals within a Carboniferous Fluvial System

et al. 2022

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Sediment delivery and supply are explicitly controlled by variations in broad-scale processes such as climate, tectonics and eustasy. These in turn influence fluvial processes and hinterland evolution. A bespoke multi-proxy approach (integrating apatite and zircon U-Pb geochronology, trace elements in apatite, and Pb-in-K-feldspar provenance tools) coupled with outcrop investigation is used to constrain the temporal trends in sediment delivery to channel sandstones of the fluvio-estuarine mid-Viséan Mullaghmore Sandstone Formation, Ireland. Provenance data indicate unique detrital signatures for all sampled horizons, indicating the fluctuating nature of sediment supply to this medium-sized basin. Tectonism and/or abrupt relative sea-level fall likely caused fluvial rejuvenation, resulting in local basement sourcing of the initial fill. Older and more distal sources, such as the Nagssugtoqidian Belt of East Greenland, become more prominent in stratigraphically younger channel sandstones suggesting catchment expansion. Paleoproterozoic to Mesoproterozoic sources are most dominant, yet the detrital grain cargo varies in each channel sandstone. Proximal sources such as the Donegal Batholith and Dalradian Supergroup are variable and appear to switch on and off. These signal shifts are likely the result of channel migration and paleoclimatic fluctuation. A monsoonal climate and large-scale wildfire events (evidenced by fusain) likely contributed to modify plant cover, intensify erosion, and increase run-off and sediment delivery rates from specific areas of the hinterland.

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Section: Paleoenvironment and Geological Setting Of The Mullaghmore S...mentioning

confidence: 99%