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Scottish Universities Research and Reactor Centre Radiocarbon Measurements IV

Published online by Cambridge University Press:  18 July 2016

D D Harkness*
Affiliation:
NERC Radiocarbon Laboratory, Scottish Universities Research and Reactor Centre, East Kilbride, Scotland
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Results reported here are for samples of geologic or geographic context completed during the period 1975 to 1978.

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Date List
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Copyright © The American Journal of Science 

References

Bath, A H, Edmunds, W M, and Andrews, J N, 1979, Palaeoclimatic trends deduced from the hydrochemistry of a Triassic sandstone aquifer, United Kingdom, in Isotope hydrology, 1978, v 2: Vienna, IAEA, p 545568.Google Scholar
Beckett, S C and Hibbert, F A, 1976, An absolute pollen diagram from the Abbot's Way: Somerset Levels Papers, no. 2, p 2427.Google Scholar
Broecker, W S and Olsen, E A, 1961, Lamont radiocarbon measurements VII: Radiocarbon, v 3, p 176 to 204.Google Scholar
Browne, M A E, Harkness, D D, Peacock, J D, and Ward, R G, 1977, The date of deglaciation of the Paisley-Renfrew area: Scottish Jour Geol, v 13, no. 4, p 301303.Google Scholar
Calvert, S E and Morris, R J, 1977, Geochemical studies of organic rich sediments from the Namibian Shelf. II, Metal-organic associations: Deep-Sea Research, Deacon vol, p 667680.Google Scholar
Coles, J M and Hibbert, F A, 1968, Prehistoric roads and tracks in Somerset, England: 1. Neolithic: Prehist Soc Proc, v 34, p 238.CrossRefGoogle Scholar
Coles, J M, Hibbert, F A, and Clements, C F, 1970, Prehistoric roads and tracks in Somerset, England: 2. Neolithic: Prehist Soc Proc, v 36, p 125151.Google Scholar
Coles, J M, Hibbert, F A, and Orme, B J, 1973, Prehistoric roads and tracks in Somerset, 3. The Sweet Track: Prehist Soc Proc, v 39, p 256293.Google Scholar
Coles, J M and Coles, M M, 1975, Check list of radiocarbon dates relating to archaeological sites in the levels: Somerset Levels papers no. 1. Hertford, Stephen Austin and Sons Ltd. Google Scholar
Coles, J M and Orme, B J, 1976, The Meare Heath Trackway; excavation of a Bronze Age structure in the Somerset Levels: Prehist Soc Proc, v 42, p 293318.CrossRefGoogle Scholar
Coope, G R and Pennington, W, 1977, The Windermere interstadial of the Late Devensian: Royal Soc [London] B, Philos Trans, v 280, p 337339.Google Scholar
Creer, K M, Readman, P W, and Papamarinopoulos, S P, in press, Geomagnetic secular variations in Greece through the last 6000 years obtained from lake sediment records: Geophys Jour Royal Astron Soc, in press.Google Scholar
Dimbleby, G W, 1953, Natural regeneration of pine and birch on the heather moors of North-East Yorkshire: Forestry, v 24, no. 1, p 4152.CrossRefGoogle Scholar
Donner, J J, Jungner, H, and Vasari, Y, 1971, The hard-water effect on radiocarbon measurements of samples from Säynäjlämpi, North-East Finland: Soc Sci Fenn Comm Phys-Math, v 41, p 307310.Google Scholar
Flenley, J R, 1980, The tropical rain forest, a geological history: London, Butterworth Press.Google Scholar
Gaskell, S J, Morris, R J, Eglington, G, and Calvert, S E, 1975, The geochemistry of a recent marine sediment off northwest Africa. An assessment of source of input and early diagenesis: Deep-Sea Research, v 22, p 777789.Google Scholar
Harland, R, Gregory, D M, Hughes, M J, and Wilkinson, I P, 1978, A late Quaternary bio- and climatostratigraphy for marine sediments in the north-central part of the North Sea: Boreas, v 7, p 9196.Google Scholar
Hicks, S P, 1975, Variations in pollen frequency in a bog at Kangerjoki, N E Finland, during the Flandrian: Soc Sci Fenn Comm Biol, v 80, p 27.Google Scholar
Hogg, T E, ms, 1978, The Holocene geomagnetic field in Europe: PhD thesis, Univ Edinburgh.Google Scholar
Keatinge, T H and Dickson, J H, 1979, Mid-Flandrian changes in vegetation on Mainland Orkney: New Phytol, v 82, p 585612.CrossRefGoogle Scholar
Matthews, J A, 1974, Families of lichenometric dating curves from the Storbreen gletschervorfeld, Jotunheimen, Norway: Norsk geog tidsskrift, v 28, p 215235.Google Scholar
Matthews, J A, 1975, Experiments on the reproducibility and reliability of lichenometric dates, Storbreen gletschervorfeld, Jotunheimen, Norway: Norsk geog tidsskrift, v 29, p 97109.CrossRefGoogle Scholar
Matthews, J A, 1977, A lichenometric test of the 1750 end-moraine hypothesis; Storbreen gletschervorfeld, southern Norway: Norsk geog tidsskrift, v 31, p 129136.Google Scholar
Morley, R J, in press a, The palaeoecology of Tasek Bera, a lowland swamp in Pahang, W Malaysia: Jour Tropical Geog, in press.Google Scholar
Morley, R J, in press b, The origin and history of Tasek Bera, in Furtado, J and Mori, S, eds, The ecology of a tropical freshwater swamp, the Tasek Bera, Malaysia, with special reference to biological production: The Hague, Junk, in press.Google Scholar
Morley, R J, in press c, Changes of dry-land vegetation in the Kerinci area of Sumatra during the Late Quaternary Period, in ICP Symposium vol, 4th: Lucknow, in press.Google Scholar
Morris, R J and Calvert, S E, 1977, Geochemical studies of organic rich sediments from the Namibian Shelf, I. The organic fractions: Deep-Sea Research, Deacon vol, p 647665.Google Scholar
O'Sullivan, P E, 1976, Pollen analysis and radiocarbon dating of a core from Loch Pityoulish, Eastern Highlands of Scotland: Jour Biogeog, v 3, p 293302.Google Scholar
Page, N R, 1972, On the age of the Hoxnian interglacial Geol Jour, v 8, p 129142.CrossRefGoogle Scholar
Pennington, W, 1975a, Council for British Archaeology: Research Rept 11, p 83.Google Scholar
Pennington, W, 1975b, A chronostratigraphic comparison of Late-Weichselian and Late-Devensian subdivisions, illustrated by two radiocarbon dated profiles from Western Britain: Boreas, v 4, p 157171.Google Scholar
Pennington, W, 1977, The Late Devensian flora and vegetation of Britain: Royal Soc [London] B, Philos Trans v 280, p 247271.Google Scholar
Pennington, W, Cambray, R S, Eakins, J D, and Harkness, D D, 1976, Radionuclide dating of recent sediments from Blelham Tarn: Freshwater Biol, v 6 p 317331.Google Scholar
Sugden, D E and John, B S, 1973, in van Zinderen Bakker, E M Sr, ed, Palaeoecology of Africa, the surrounding islands and Antarctica: Cape Town, Balkema, p 139 to 159.Google Scholar
Thompson, R, 1973, Palaeolimnology and palaeomagnetism: Nature, v 242, p 182184.CrossRefGoogle Scholar
Turner, J, Heweston, V P, Hibbert, F A, Lowry, K H, and Chambers, C, 1973, The history of the vegetation and flora of Witteybank Fell and the Cow Green Reservoir Basin: Royal Soc [London] B, Philos Trans, v 265, p 327408.Google Scholar
Vita-Finzi, C, 1969, The Mediterranean valleys: Cambridge, Cambridge Univ Press.Google Scholar
Vita-Finzi, C, 1973, Recent earth history: London, Macmillan.Google Scholar
Vita-Finzi, C, 1976, Diachronism in Old World alluvial sequences: Nature, v 263, p 218219.Google Scholar
Wardroper, A M K, Maxwell, J R, and Morris, R J, 1978, Sterols of a diatomaceous ooze from Walvis Bay: Steroids, v 32, no. 2, p 203221.Google Scholar
Williams, W, ms, 1977, The Flandrian vegetational history of the Isle of Skye and the Morar Peninsula: PhD thesis, Univ Cambridge.Google Scholar