Hostname: page-component-7479d7b7d-qlrfm Total loading time: 0 Render date: 2024-07-09T13:27:58.876Z Has data issue: false hasContentIssue false
  • English
  • Français

Sedimentology of part of the Lower Oil-Shale Group (Dinantian) sequence at Granton, Edinburgh, including the Granton “shrimp-bed”

Published online by Cambridge University Press:  03 November 2011

John M. L. Cater
John M. L. Cater
Affiliation:
Grant Institute of Geology, University of Edinburgh, West Mains Road, Edinburgh EH9 3JW, Scotland, U.K.
Get access Rights & Permissions [Opens in a new window]

Abstract

The Dinantian Lower Oil-Shale Group of the Edinburgh area records the evolution of a SW–NE trending basin within an area of fluvial-dominated deltaic sedimentation, with rare marine incursions from the E. The sequence at Granton records the abandonment of a delta lobe, with deltaic sandstones overlain by lagoonal mud-shales. These thinly-laminated non-bioturbated mud-shales record low-energy, stagnant conditions. Fish, ostracodes and conchostracans inhabited the lagoon at this time.

Within the mud-shale sequence is the dolomitic Granton “shrimp-bed” which contains fenestrae, possible gypsum pseudomorphs and in situ shrinkage breccias suggesting periods of emergence. The “shrimp-bed” contains a number of laminae packed with soft-bodied fossils including marine forms, which resulted from brief marine incursions into the stagnant lagoon. The fluctuating salinity conditions seem to have favoured the development of an unusual fauna of shrimp-like crustaceans, fish, conchostracans, ostracodes and bellerophontid gastropods. This fauna appears to have suffered periodic mass mortalities during marine incursions which brought orthocone cephalopods, polychaete worms and conodonts into the lagoon, according to our current knowledge of the distribution of these marine taxa in the sequence.

The Granton sequence displays a variety of ductile and brittle deformation features most of which can be attributed to local SW-directed extension related to regional dextral strike-slip across the Midland Valley of Scotland.

Keywords

Carboniferouscrustaceansenvironmentsmud-flats
Type
Research Article
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 78 , Issue 1 , 1987 , pp. 29 - 40
Copyright
Copyright © Royal Society of Edinburgh 1987

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Adams, A. E. & Cossey, P. J. 1978. Geological history and significance of a laminated and slumped unit in the Carboniferous Limestone of the Monsal Dale region, Derbyshire. GEOL J 13, 4760.CrossRefGoogle Scholar
Baker, P. A. & Kastner, M. 1981. Constraints on the formation of sedimentary dolomite. SCIENCE 213, 214216.CrossRefGoogle ScholarPubMed
Bathurst, R. C. 1975. Carbonate Sediments and Their Diagenesis. Amsterdam: Elsevier.Google Scholar
Bellamy, J. 1977. Subsurface expansion polygons in Upper Jurassic dolostone (Kimmeridge, U.K.). J SEDIMENT PETROL 47, 973978.Google Scholar
Belt, E. S., Freshney, E. C. & Read, W. A. 1967. Sedimentology of the Carboniferous cementstone facies, British Isles and eastern Canada. J GEOL 75, 711721.CrossRefGoogle Scholar
Berner, R. A. & Raiswell, R. 1984. C/S method for distinguishing freshwater from marine sedimentary rocks. GEOLOGY 12, 365368.2.0.CO;2>CrossRefGoogle Scholar
Bradley, W. H. 1931. Origin and microfossils of the oil shale of the Green River Formation of Colorado and Utah. U S GEOL SURV PROF PAP 168.Google Scholar
Briggs, D. E. G. & Clarkson, E. N. K. 1983. The Lower Carboniferous Granton “Shrimp-Bed”, Edinburgh. SPEC PAP PALAEONTOL 30, 161177.Google Scholar
Briggs, D. E. G., Clarkson, E. N. K. & Aldredge, R. J. 1983. The conodont animal. LETHAIA 16, 114.CrossRefGoogle Scholar
Cole, R. D. & Picard, M. D. 1975. Primary and secondary sedimentary structures in oil shale and other fine-grained rocks, Green River Formation (Eocene), Utah and Colorado. UTAH GEOL 2, 4967.CrossRefGoogle Scholar
Davies, A. & Wilson, R. B. 1974. The Lower Carboniferous (Dinantian) sequence at Spilmersford, East Lothian, Scotland. BULL GEOL SURV G B 45, 138.Google Scholar
Davies, G. R. 1970. Algal-laminated sediments, Gladstone embayment, Shark Bay, Western Australia. AM ASSOC PET GEOL MEM 13, 169205.Google Scholar
Elliott, T. 1974. Interdistributary bay sequences and their genesis. SEDIMENTOLOGY 21, 611622.CrossRefGoogle Scholar
Francis, E. H. 1983. Carboniferous. In Craig, G. Y. (ed.) Geology of Scotland, 2nd edn, 253296. Edinburgh: Scottish Academic Press.Google Scholar
Gibling, M. R., Tantisukrit, C., Uttamo, W., Thanasuthipitak, T. & Haraluck, M. 1985. Oil shale sedimentology and geochemistry in Cenozoic Mae Sot Basin, Thailand. AM ASSOC PET GEOL BULL 69, 767780.Google Scholar
Gill, D. 1977. Saline A-l sabkha cycles and the Late Silurian palaeogeography of the Michigan Basin. J SEDIMENT PETROL 47, 9791017.Google Scholar
Greensmith, J. T. 1962. Rhythmic deposition in the Carboniferous Oil-Shale Group of Scotland. J GEOL 70, 355364.CrossRefGoogle Scholar
Greensmith, J. T. 1965. Calciferous Sandstone Series sedimentation at the eastern end of the Midland Valley of Scotland. J SEDIMENT PETROL 35, 223242.Google Scholar
Hesse, R. & Reading, H. G. 1978. Subaqueous clastic fissure eruptions and other examples of sedimentary transposition in the lacustrine Horton Bluff Formation (Mississippian), Nova Scotia, Canada. In Matter, A. & Tucker, N. E. (eds) Modern and ancient lake sediments, 239256. SPEC PUBL INT ASSOC SEDIMENT 2. Oxford: Blackwell Scientific Publications.Google Scholar
Hesselbo, S. P. & Trewin, N. H. 1984. Deposition, diagenesis and structures of the Cheese Bay Shrimp Bed, Lower Carboniferous, East Lothian. SCOTT J GEOL 20, 281296.CrossRefGoogle Scholar
Leeder, M. R. 1982. Sedimentology: Process and Product. London: George Allen & Unwin.Google Scholar
Love, L. G. 1959. Assemblages of small spores from the Lower Oil-shale Group of Scotland. PROC R SOC EDINBURGH SECT B 67, 99126.Google Scholar
Paterson, I. B. & Hall, I. H. S. 1986. Lithostratigraphy of the Late Devonian and Early Carboniferous rocks in the Midland Valley of Scotland. BRIT GEOL SURV REP 18 (3). London: HMSO.Google Scholar
Pearson, M. J. 1979. Geochemistry of the Hepworth Carboniferous sediment sequences and origin of the diagenetic iron minerals and concretions. GEOCHIM COSMOCHIM ACTA 43, 927941.CrossRefGoogle Scholar
Reading, H. G. 1978 (ed.). Sedimentary Environments and Facies. Oxford: Blackwell.Google Scholar
Scheiber, J. 1986. The possible role of benthic microbial mats during the formation of carbonaceous shales in shallow Mid-Proterozoic basins. SEDIMENTOLOGY 33, 521536.CrossRefGoogle Scholar
Tait, D. 1925. Notice of a shrimp-bearing limestone in the Calciferous Sandstone Series at Granton, near Edinburgh. TRANS EDINBURGH GEOL SOC 11, 131135.CrossRefGoogle Scholar
Trewin, N. H. 1986. Palaeoecology and sedimentology of the Achanarras fish bed of the Middle Old Red Sandstone, Scotland. TRANS R SOC EDINBURGH EARTH SCI 77, 2146.CrossRefGoogle Scholar
Van Houten, F. B. 1964. Cyclic lacustrine sedimentation, Upper Triassic Lockatong Formation, central New Jersey and adjacent Pennsylvania. In Merriam, D. F. (ed.) Symposium on cyclic sedimentation, 497531. BULL KANSAS GEOL SURV 169.Google Scholar
Von Der Borch, C. C. & Lock, D. 1979. Geological significance of Coorong dolomites. SEDIMENTOLOGY 26, 813824.CrossRefGoogle Scholar