- 1 Passage Formation (PGP), Carboniferous, Midland Valley of Scotland
- 2 References
Passage Formation is part of the Clackmannan Group.
Forsyth et al. (1996) changed the name Passage Group to Passage Formation. The boundary definitions were unaffected.
The Passage Formation (see Browne et al., 1999, fig. 6) is characterised by an alternation of fine- to coarse-grained sandstones (with some conglomerates) and structureless clayrocks (including some high-alumina seatclay, fireclay and bauxitic clay). The clayrocks are commonly mottled reddish brown and greenish grey. Upward-fining cycles predominate over upward-coarsening cycles. Bedded grey and black siltstones and mudstones are also present, and beds of limestone, ironstone, cannel and coal. Marine faunas, diverse and closely spaced at the base, become progressively impoverished upwards. Volcanic rocks also occur.
Fuviodeltaic (‘Millstone Grit’) facies.
The type section of the Passage Formation occurs between 48.95 and 368.15 m depth in the Saltgreen No. 1 Borehole (BGS Registration Number NS98NW/197) (NS 9196 8608), south of Clackmannan (see Browne et al., 1999, fig.6, col. 6).
Lower and upper boundaries
The base is taken at the top of the Castlecary Limestone (CAS) or at a plane of disconformity where the base is erosive, both underlain by cyclic sedimentary rocks of the Upper Limestone Formation (Figure 6, Column 4). The top is drawn at the base of the Lowstone Marine Band (LOMB) or a correlative, marking the base of the Scottish Coal Measures Group. It has been suggested (see Read, 1981, Read et al., 2002, pp. 281–282) that, in the area of greatest thickness, the formation includes up to three major disconformities. These apparently cut out strata of mid Arnsbergian, late Arnsbergian to late Alportian, and Kinderscoutian to Marsdenian age and may include the mid Carboniferous break. In some areas, such as Douglas, two unconformities have been proved.
The Passage Formation also occurs in the Thornhill Basin, where the sandstone facies (including grey, white and pink pebbly sandstone with beds of conglomerate) lie conformably or disconformably on the carbonate and siliciclastic rocks of the late Asbian to Brigantian Closeburn Limestone Formation (Yoredale Group) (Figure 6, Column 6), or unconformably on the mainly sandstone turbidites of the Ordovician Glenlee Formation or Silurian Gala Group. They are overlain by the fluviodeltaic (‘Coal Measures’) facies of the Scottish Lower Coal Measures Formation.
The maximum thickness of the formation is about 380 m in the Clackmannan area of the Central Coalfield (Browne et al., 1985, p. 10). Generalised thicknesses were given of 0–50 m on Arran (BGS, 1987a) and 152.5 m in the main coalfield area at Machrihanish (BGS, 1996).
Distribution and regional correlation
Throughout the Midland Valley of Scotland, on the Isle of Arran, at Machrihanish, and in the Thornhill Basin and the western part of the Sanquhar Basin.
Age and biostratigraphical characterisation
Namurian to Westphalian (Arnsbergian to Langsettian), lower SO to lower SS Miospore zones. Ammonoids are rare. Anthracoceras glabrum and A. paucilobum of Arnsbergian (E2) age have been recovered from shortly above the Castlecary Limestone (see Currie, 1954), and Homoceratoides sp. of apparently Kinderscoutian (R1) age has been found probably within the No.3 Marine Band group (Neves et al., 1965). Neves et al. (1965) located spore assemblages of lower Kinderscoutian (R1), uppermost Marsdenian (R2), by implication Yeadonian (G1), and lower Langsettian (G2) age in the Scottish Namurian and Westphalian, but found no evidence of the Chokierian (H1) or Alportian (H2) stages. The No.2 Marine Band, which is developed in places as a thin, impure limestone (the Roman Cement Limestone) is largely composed of crushed brachiopod valves. The mudstone and ironstone marine bands in the formation have dominantly brachiopods including orthotetoids, Productus cf. carbonarius and Schizophoria cf. resupinata and the bivalve Schizodus taiti (Wilson, 1967). The nonmarine bivalve genus Curvirimula is abundant in the immediate roof mudstone of the Castlecary Limestone, which forms the uppermost bed of the Upper Limestone Formation (see above).
See also Appendix 1. Members of the Passage Formation in ascending stratigraphical order include:
- Forsyth, I H, Hall, I H S, and McMillan, A A. 1996. Geology of the Airdrie district. Memoir of the British Geological Survey, Sheet 31W (Scotland)
- Browne, M A E, Dean, M T, Hall, I H S, McAdam, A D, Monro, S K, and Chisholm, J I. 1999. A lithostratigraphical framework for the Carboniferous rocks of the Midland Valley of Scotland.British Geological Survey Research Report, RR/99/07
- Read, W A. 1981. Facies breaks in the Scottish Passage Group and their possible correlation with the Mississipian–Pensylvanian hiatus. Scottish Journal of Geology, Vol. 17, 295–300
- Read, W A, Browne, M A E, Stephenson, D, and Upton, B G J. 2002. Carboniferous. 251–299 in The Geology of Scotland (4th edition). Trewin, N H (editor). (London: The Geological Society.)
- Browne, M A E, Hargreaves, R L, and Smith, I F. 1985. The Upper Palaeozoic basins of the Midland Valley of Scotland. Investigation of the geothermal potential of the UK. (Keyworth, Nottingham: British Geological Survey.)
- British Geological Survey. 1996. Campbeltown. Scotland Sheet 12, Provisional Series. Solid and Drift 1:50.000. (Keyworth, Nottingham: British Geological Survey.)
- Currie, E D. 1954. Scottish Carboniferous goniatites. Transactions of the Royal Society of Edinburgh, Vol. 62, Pt. 2, 527–602.
- Neves, R, Read, W A, and Wilson, R B. 1965. Note on recent spore and goniatite evidence from the Passage Group, of the Scottish Upper Carboniferous succession. Scottish Journal of Geology, Vol. 1, 185–188
- Wilson, R B. 1967. A study of some Namurian marine faunas of central Scotland. Transactions of the Royal Society of Edinburgh, Vol. 66, 445–490