Benton, M.J., Cook, E. & Turner, P. 2002. Permian and Triassic Red Beds and the Penarth Group of Great Britain. Geological Conservation Review Series, No. 24, JNCC, Peterborough, ISBN 1 86 107 493 X.
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The site comprises a magnificent coastal section that exposes the full thickness of the Lower Triassic Budleigh Salterton Pebble Beds, a sequence of texturally mature conglomerates deposited by braided rivers. These include pebbles of Ordovician and Devonian rocks with indigenous faunas derived from erosion of a ridge of Palaeozoic rocks to the south or southwest. The conglomerates are overlain unconformably by aeolian and fluvial sandstones of the Otter Sandstone Formation that rest on a layer of wind-facetted pebbles (dreikanter).
Early accounts of the Budleigh Salterton Pebble Beds include Vicary (1864), Whitaker (1869), Ussher (1876), Irving (1888), and Woodward and Ussher (1911). More recent descriptions include Laming (1966, 1968), Henson (1970), Selwood et al. (1984), Cocks (1989, 1993), Holloway et al. (1989), Smith (1990), Smith and Edwards (1991), and Wright et al. (1991).
The site is part of the Dorset and East Devon Coast World Heritage site.
The Triassic sequence is best seen in the cliffs west of the town of Budleigh Salterton
The conglomeratic BSPB is the lower formation of the Sherwood Sandstone Group at Budleigh Salterton, and is well exposed west of the sea front
The lower part of the BSPB, approximately 14 to 18 m thick, contains planar-bedded and cross-bedded conglomerates that grade laterally into sandstone lenses and then back into conglomerates
The upper section of the BSPB, some 12 to 14 m thick, is characterized by thinner beds of conglomerate with a higher sand content and the presence of large gravelly foresets, all of which display a very crude fining-upwards sequence
The BSPB is succeeded by a 0.3 m thick deposit of red mudstone that is, in turn, overlain by a layer of facetted pebbles
The pebbles overlying this layer have facetted upper surfaces and flattened or rounded lower surfaces. The upper surfaces are polished and show flutes and pits, producing zweikanter, dreikanter, and multi-facetted forms (Leonard et al., 1982). The upper surfaces display pockmarks and microscopic striations, and are coated with haematite. The lower surfaces are smoothed and irregular.
The overlying thick sequence of medium- to fine-grained, reddish-brown, cross-bedded sandstones belong to the Otter Sandstone Formation (Holloway et al., 1989), which is described in more detail in the Ladram Bay to Sidmouth site description (below). At Budleigh Salterton, this formation is exposed in the cliffs near to the town
The sediments cropping out along the coastline west of Budleigh Salterton preserve evidence for a complex palaeoenvironmental regime, dominated by fluvial and aeolian activity Of particular significance are the ventifacts and deflation layer, and the palaeosol, at the top of the BSPB. During the deposition of the Sherwood Sandstone Group the climate of this part of Britain was hot and dry, as suggested by the presence of anhydrite, calcretes, and deflation surfaces with ventifacts (Henson, 1970; Leonard et al., 1982; Holloway et al., 1989).
The conglomerates and sandstones of the BSPB were deposited in substantial, low-sinuosity, gravel-bedded rivers on an alluvial fan or fluvial braidplain (Laming, 1966; Leonard et al., 1982; Smith, 1990). The lower part of the formation, consisting of thick units of planar cross-bedded sandstone, has been interpreted as large channel-fills with distinct phases of conglomerate and sandstone deposition, the sediments having been deposited on the edges of large linguoid bars, probably in a gravel-bed stream. The upper part, typified by thinner beds and more sandstone, was deposited as sheets in shallow, poorly-channelized streams. Here, the coarser-grained material was deposited in the deeper parts of the channel, and the sandstone in the shallower areas. The contact between these two distinct facies is erosional, and was produced during the lateral migration of the river channels (Smith, 1990; Smith and Edwards, 1991).
The rivers that deposited the BSPB drained an area of high ground that was situated to the south of the Wessex Basin
The fine-grained horizon with angular pebbles at the top of the BSPB has been interpreted as a 'reg' palaeosol (Wright et al., 1991). Reg soil profiles typically consist of a ventifact horizon overlying a fine-grained layer that shows evidence of clay enrichment and coated grains, and are characteristic of desert environments. It is thought that this palaeosol bed represents an extended period of land surface stability, probably of many thousands of years in duration (Holloway et al., 1989). The ventifact layer represents a deflation surface characterized by little or no net sediment deposition, and probably formed over an extended period of time.
The ventifact layer is overlain by the Otter Sandstone Formation, the lowest 14 m of which has been interpreted as deposited by aeolian processes, which resulted in erosion of pebbles to form ventifacts, followed by the formation of large dunes (Henson, 1970). This interpretation is supported by the presence of large-scale cross-bedding, an absence of mica and coarse-grained clasts in the sandstone, and the high degree of rounding of the clasts (Newell, 1992). The sedimentary sequence preserves enough detail for tentative identifications of the dune types to be made. The lower sequence of trough cross-bedded sandstones was probably deposited on the slip faces of barchan or transverse dunes. The overlying low-angle laminated sandstones and associated mudstones may represent smaller dome-shaped dunes and interdune areas. These are overlain by fluvial, horizontally- and cross-bedded sandstones (Purvis and Wright, 1991).
The base of the BSPB was arbitrarily taken as the base of the Triassic succession in Devon (Warrington et al., 1980), although others (e.g. Edwards and Scrivener, 1999) adopt a lower level for that boundary, placing it at the base of the Aylesbeare Mudstone Group (see Chapter 2, p. 84). Though direct palaeontological evidence for age is lacking, the BSPB is dated as Early Triassic in age. This age is poorly constrained by Late Permian miospores in the upper part of the Exeter Group (below the Aylesbeare Mudstone Group, which underlies the BSPB; see Chapter 2), and the faunas of Mid Triassic (Anisian) age in the overlying Otter Sandstone Formation (see below and Benton and Spencer (1995) and Dineley and Metcalfe (1999).
The sea cliffs in the vicinity of Budleigh Salterton expose an excellent section of Triassic fluvial and aeolian sediments, including a complete section of the Budleigh Salterton Pebble Beds. The provenances of pebbles assessed from included fossils aid palaeogeographical reconstructions. Of particular significance is the ventifact and deflation horizon at the top of the BSPB, a feature common in modern deserts but rarely preserved in the geological record. This is a world-famous site, with a classic section through fluvial conglomerates, and critical for the understanding of British Early Triassic palaeoenvironments and palaeogeography.