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Taphonomy of plant fossils from the Viséan of East Kirkton, West Lothian, Scotland

Published online by Cambridge University Press:  03 November 2011

R. E. Brown
Affiliation:
Department of Geology, Royal Holloway College, University of London, Egham, Surrey TW20 0EX, U.K. Department of Biology, Royal Holloway College, University of London, Egham, Surrey TW20 0EX, U.K.
A. C. Scott
Affiliation:
Department of Geology, Royal Holloway College, University of London, Egham, Surrey TW20 0EX, U.K.
T. P. Jones
Affiliation:
Department of Geology, Royal Holloway College, University of London, Egham, Surrey TW20 0EX, U.K. Department of Biology, Royal Holloway College, University of London, Egham, Surrey TW20 0EX, U.K.

Abstract

The Viséan sequence at East Kirkton contains abundant plant fossils which show a wide range of preservation states. Most of the plant fragments are allochthonous, but stigmarian rootlets are found in situ at the top of the sequence and form mats near the base, where they are preserved in cherts. Axes have commonly been reworked within tuffs at the base. The majority of the plants are preserved as fragmentary compressions, although mineral replacement of the organic matter has occurred in some places. A number of woody axes which have been permineralised by phases of calcite and silica are found in the limestone and tuffs of the sequence. These axes often show complex mineralisation patterns and can occur at the centre of stromatolitic nodules. Some are well preserved and appear to have been permineralised rapidly whereas others show evidence of decay prior to calcite growth or degradation after stromatolite developed. Fusain (fossil charcoal) is abundant in the sequence, in addition to fusain transition fossils caused by partial charring, which suggests the occurrence of palaeowildfires in the area. The plant fossils have been assigned to a number of categories (some of which are new), based on their varied preservation states.

Type
Research Article
Copyright
Copyright © Royal Society of Edinburgh 1993

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References

Bateman, R. M. 1991. Palaeoecology. In Cleal, C. J. (Ed.) Plant fossils in geological investigation: The Palaeozoic, 34116. Chichester: Ellis Horwood.Google Scholar
Bateman, R. M. & Rothwell, G. W. 1990. A reappraisal of the Dinantian floras at Oxroad Bay, East Lothian, Scotland. 1. Floristics and the development of whole-plant concepts. TRANS R SOC EDINBURGH: EARTH SCI 81, 127–59.CrossRefGoogle Scholar
Bateman, R. M. & Scott, A. C. 1990. A reappraisal of the Dinantian floras at Oxroad Bay, East Lothian, Scotland. 2. Volcanicity, palaeoenvironments and palaeoecology. TRANS R SOC EDINBURGH: EARTH SCI 81, 161–94.CrossRefGoogle Scholar
Carson, G. A. 1991. Silicification of fossils. In Allison, P. A. & Briggs, D. E. G. (Eds) Taphonomy: releasing the data locked in the fossil record, 455–99. New York: Plenum Press.CrossRefGoogle Scholar
Folk, R. L., Chafetz, H. S. & Tiezzi, P. A. 1985. Bizarre forms of depositional and diagenetic calcite in hot springs travertines, Central Italy. In Schneidermann, N. & Harris, P. M. (Eds) Carbonate Cements, 349–69. SOC ECON PALEONTOL MINER 36.Google Scholar
Fournier, R. O. 1985. The behaviour of silica in hydrothermal solutions. In Berger, B. R. & Bethke, P. M. (Eds) Geology and geochemistry of epithermal systems, 4562. SOC ECON GEOL REV ECON GEOL 2.Google Scholar
Harris, T. M. 1958. Forest fire in the Mesozoic. J ECOL 46, 447–53.CrossRefGoogle Scholar
Durant, G. P. 1994. Volcanogenic sediments of the East Kirkton Limestone, Viséan, of West Lothian, Scotland. TRANS R SOC EDINBURGH: EARTH SCI 84, 203207.Google Scholar
Jones, T. P. & Chaloner, W. G. 1991. Fossil charcoal, its recognition and palaeoatmospheric significance. PALAEOGEOGR PALAEOCLIMATOL PALAEOECOL (Global and Planetary Change Section) 97, 3950.CrossRefGoogle Scholar
Jones, T. P., Scott, A. C. & Cope, T. M. 1991. Reflectance measurements and the temperatures of formation of modern charcoals and implications for studies of fusain. BULL SOC GEOL FRANCE 162, 193200.Google Scholar
Jones, T. P., Scott, A. C. & Mattey, D. P. 1993. Investigations of ‘fusain transition fossils’ from the Lower Carboniferious: comparisons with modern partially charred wood. INT J COAL GEOL 22, 3759.CrossRefGoogle Scholar
Leo, R. F. & Barghoorn, E. S. 1876. Silicification of wood. BOT MUS LEAFL HARV UNIV 25, 147.Google Scholar
McGinnes, E. A., Kandeel, S. A. & Szopa, P. 1971. Some structural changes observed in the transformation from wood to charcoal. WOOD AND FIBRE 3, 7783.Google Scholar
Meyers, W. L. 1977. Chertification in the Mississippian Lake Valley Formation, Sacramento Mountains, New Mexico. SEDIMENTOLOGY 24, 75105.CrossRefGoogle Scholar
Rex, G. M. 1986. The preservation and palaeoecology of the Lower Carboniferous silicified plant deposits at Esnost, near Autun, France. GEOBIOS 19, 773800.CrossRefGoogle Scholar
Rex, G. M. & Scott, A. C. 1987. The sedimentology, palaeoecology and preservation of the Lower Carboniferous plant deposits at Pettycur, Fife, Scotland. GEOL MAG 124, 4366.CrossRefGoogle Scholar
Rolfe, W. D. I., Durant, G. P., Fallick, A. E., Hall, A. J., Large, D. J., Scott, A. C., Smithson, T. R. & Walkden, G. M. 1990. An early terrestrial biota preserved by Visean vulcanicity in Scotland. In Lockley, M. G. & Rice, A. (Eds) Volcanism and fossil biotas, 1324. GEOL SOC AM SPEC PAP 244.Google Scholar
Rolfe, W. D. I., Durant, G. P., Baird, W. J., Chaplin, C., Paton, R. L. & Reekie, R. J. 1994. The East Kirkton Limestone, Viséan, West Lothian, Scotland: introduction and stratigraphy. TRANS R SOC EDINBURGH: EARTH SCI 84, 177188.Google Scholar
Schopf, J. M. 1975. modes of fossil preservation. REV PALAEOBOT PALYNOL 20, 2753.CrossRefGoogle Scholar
Scott, A. C. 1989. Observations on the nature and origin of fusain. INT J COAL GEOL 12, 443–5.CrossRefGoogle Scholar
Scott, A. C., Brown, R., Galtier, J. & Meyer-Berthaud, B. 1994. Fossil plants from the Viséan of East Kirkton, West Lothian, Scotland. TRANS R SOC EDINBURGH: EARTH SCI 84, 249260.Google Scholar
Scott, A. C. & Jones, T. P. in press. The nature and influence of fire in Carboniferous ecosystems. PALAEOGEOGR PALAEOCLIMATOL PALAEOECOL.Google Scholar
Shute, C. H. & Cleal, C. J. 1987. Palaeobotany in museums. GEOL CURATOR 4, 553–59.CrossRefGoogle Scholar
Walkden, G. M., Irwin, J. R. & Fallick, A. E. 1994. Carbonate spherules and botryoids as lake floor cements in the Lower Carbonferous East Kirkton Limestone of West Lothian, Scotland. TRANS R SOC EDINBURGH: EARTH SCI 84, 213221.Google Scholar