Palaeosols as indicators of geomorphic stability in two Old Red Sandstone alluvial suites, South Wales

doi:10.1144/gsjgs.150.6.1109

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Journal of the Geological Society; 1993; v. 150; issue.6; p. 1109-1120;
DOI: 10.1144/gsjgs.150.6.1109
© 1993 Geological Society of London

Article

Palaeosols as indicators of geomorphic stability in two Old Red Sandstone alluvial suites, South Wales

S. B. MARRIOTT & V. P. WRIGHT

Postgraduate Research Institute for Sedimentology, The University, PO Box 227, Whiteknights, Reading RG6 2AB, UK

Palaeosols (fossil soils) are abundant in the alluvial lateSilurian–early Devonian Moor Cliffs Formation and RatIsland Mudstone (Freshwater West Formation) of south Dyfed,South Wales. The palaeosols occur in thick mudstones depositedon floodplains under a seasonal, semi-arid climate, and representVertisol-type soils. Simple, single profiles are rare and mostof the mudstone intervals exhibit complex overprinted profiles.However, a major difference exists between the palaeo-Vertisolsin each of the two units studied. The Moor Cliffs Formationcontains thick floodplain intervals with evidence of frequenterosion and reactivation of earlier soil horizons. The associatedcoarser channel deposits mainly represent ephemeral streams.The alluvial system was unstable, flashy and prone to extensivestripping of stored floodplain sediment. Arroyos (unstable ephemeralstream channels) probably developed during this interval. Evidencefor any marine influence on soil development is missing andprevious speculations that the formation may represent depositionin an upper-intertidal or supratidal system are not supported.

The Rat Island Mudstone represents a complete contrast in thatthere was little or no stripping of floodplain sediments. Thechannel deposits are typically of the fining-upwards type representingmore stable, low sinuosity channels and with ephemeral-streamfloods.

By integrating the palaeosols, a more detailed picture of thegeomorphic history of these units can be formulated. Comparisonwith contemporary drainage basins indicates that a change inclimate was a possible cause for the differences between thetwo units, less frequent and more severe storms occurring duringthe deposition of the Rat Island Mudstone.

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