Hostname: page-component-76fb5796d-x4r87 Total loading time: 0 Render date: 2024-04-26T19:33:58.731Z Has data issue: false hasContentIssue false
  • English
  • Français

Do Neoproterozoic (Moine) calc-silicate rocks represent metamorphosed tuffs? A geochemical re-appraisal

Published online by Cambridge University Press:  18 April 2018

Richard A. Batchelor
Richard A. Batchelor*
Affiliation:
School of Earth & Environmental Sciences, University of St. Andrews, St. Andrews KY16 9AL, Scotland, UK
Get access Rights & Permissions [Opens in a new window]

Abstract

Following the identification of grey quartz–albite–chlorite–calcite–muscovite rocks in Meso- to Neo-proterozoic sequences in Scotland as metamorphosed tuffs of intermediate composition, it has been shown that this lithology will generate calc-silicate rocks at higher metamorphic grades. Both rock types occur as thin beds with sharp contacts with their host, occur as multiple beds in isolated suites, and share chemical compositions suggestive of volcanic sources with tholeiitic andesite affinities. The failure to recognise calc-silicate rocks as tuffs might explain the apparent scarcity of volcanogenic material through c.220 million years of early Earth history in Scotland.

Keywords

Proterozoic volcanic ashes
Type
Articles
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 107 , Issue 4 , December 2016 , pp. 333 - 349
Copyright
Copyright © The Royal Society of Edinburgh 2018 

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

7. References

Batchelor, R. A. 2004a. Air-fall tuffs in the Southern Highland Group, Dalradian Supergroup, at Birnam, Perthshire. Scottish Journal of Geology 40, 6772.Google Scholar
Batchelor, R. A. 2004b. More air-fall tuffs from the Southern Highland Group, Dalradian Supergroup, Scotland. Scottish Journal of Geology 40, 181184.Google Scholar
Batchelor, R. A. 2005. Tephra-fall deposits in the Sleat Group (Torridonian), Isle of Skye, Scotland. Geological Magazine 142, 209215.Google Scholar
Batchelor, R. A. 2011. Geochemistry of Torridonian tuffs and contemporary phosphorites; potential for correlation of Torridonian sequences in NW Scotland. Scottish Journal of Geology 47, 133142.Google Scholar
Batchelor, R. A., Prave, A. R., Oliver, G. J. H. & Raeburn, A. S. 2008. Petrogenesis of albite-rich Neoproterozoic tephra-fall deposits (“brown beds”). Geological Magazine 145, 858867.Google Scholar
Bonsor, H. & Prave, A. R. 2008. The Upper Morar Psammite of the Moine Supergroup, Ardnamurchan Peninsula, Scotland: depositional setting, tectonic implications. Scottish Journal of Geology 44, 111122.Google Scholar
Cawood, P. A., Nemchin, A. A., Strachan, R. A., Kinny, P. D. & Loewy, S. 2004. Laurentian provenance and an intercratonic setting for the Moine Supergroup, Scotland, constrained by detrital zircons from the Loch Eil and Glen Urquhart successions. Journal of the Geological Society, London 161, 861874.Google Scholar
Condon, D. J. & Prave, A. R. 2000. Two from Donegal: Neoproterozoic glacial episodes on the northeast margin of Laurentia. Geology 28, 951954.Google Scholar
Hill, I. G., Worden, R. H. & Meighan, I. G. 2000. Yttrium: the immobility–mobility transition during basaltic weathering. Geology 28, 923926.Google Scholar
Holdsworth, R. E., Harris, A. L. & Roberts, A. M. 1987. The stratigraphy, structure and regional significance of the Moine rocks of Mull, Argyllshire, W. Scotland. Geological Journal 22, 83107.Google Scholar
Holdsworth, R. E., Strachan, R. A. & Harris, A. L. 1994. Precambrian rocks in northern Scotland east of the Moine Thrust: the Moine Supergroup. In Gibbons, W. & Harris, A. L. (eds) A revised correlation of Precambrian rocks in the British Isles. Geological Society, London, Special Report 22. London & Bath: The Geological Society. 110 pp.Google Scholar
Johnstone, G. S. & Mykura, W. 1989. British Regional Geology: The Northern Highlands. 4th ed. Keyworth, Nottingham & London: British Geological Survey & Stationery Office Books. 219 pp.Google Scholar
Kennedy, W. Q. 1949. Zones of progressive regional metamorphism in the Moine Schists of the Western Highlands of Scotland. Geological Magazine 86, 4356.Google Scholar
Krabbendam, M., Prave, A. R. & Cheer, D. 2008. A fluvial origin for the Neoproterozoic Morar Group, NW Scotland: implications for Torridon-Morar Group correlation and the Grenville Orogen Foreland Basin. Journal of the Geological Society, London 165, 379394.Google Scholar
Mendum, J. R., Barber, A. J., Butler, R. W. H., Flinn, D., Goodenough, K. M., Krabbendam, M., Park, R. G. & Stewart, A. D. 2009. Lewisian, Torridonian and Moine Rocks of Scotland. Geological Conservation Review Series 34. Peterborough: Joint Nature Conservation Committee. 722 pp.Google Scholar
Millar, I. L. 1999. Neoproterozoic extensional basin magmatism associated with the West Highland granitic gneiss in the Moine Supergroup of NW Scotland. Journal of the Geological Society, London 156, 11531162.Google Scholar
Miyashiro, A. 2004. Metamorphic Petrology. London: UCL Press. 404 pp.Google Scholar
Moorhouse, S. J. & Moorhouse, V. E. 1979. The Moine amphibolite suite of central and northern Sutherland, Scotland. Mineralogical Magazine 43, 211225.Google Scholar
Noble, S. R., Hyslop, E. K. & Highton, A. J. 1996. High-precision U-Pb monazite geochronology of the c. 806Ma Grampian shear zone and the implications for the evolution of the Central Highlands of Scotland. Journal of the Geological Society, London 153, 511514.Google Scholar
Peach, B. N., Horne, J., Gunn, W., Clough, C. T. & Hinxman, L. W. 1907. The Geological Structure of the Northwest Highlands of Scotland. Memoirs of the Geological Survey of Great Britain. Glasgow: HMSO.Google Scholar
Peacock, J. D. 1977. Metagabbros in granitic gneiss, Inverness-shire, and their significance in the structural history of the Moines. Report, Institute of Geological Sciences 77/20. HMSO.Google Scholar
Read, H. H., Phemister, J. & Ross, G. 1926. The Geology of Strath Oykell and Lower Loch Shin. Memoir of the Geological Survey of Scotland.Google Scholar
Rock, N. M. S. 1984. New types of hornblendic rocks and prehnite-veining in the Moines west of the Great Glen, Inverness-shire. Report, Institute of Geological Sciences 83/8. HMSO.Google Scholar
Rollinson, H. R. 1980. Mineral reactions in a granulite facies calc-silicate rock from Scourie. Scottish Journal of Geology 16, 153164.Google Scholar
Rosen, O., Desmons, J. & Fettes, D. 2004. Metacarbonate and related rocks. Part 7. A systematic nomenclature for metamorphic rocks. IUGS Commission on the systematics in petrology. Provisional edition. (http://www.bgs.ac.uk/SCMR/docs/papers/paper_7.pdf)Google Scholar
Stewart, A. D. 2002. The later Proterozoic Torridonian rocks of Scotland: their sedimentology, geochemistry and origin. Geological Society of London, Memoir 24.Google Scholar
Strachan, R. A., Smith, M., Harris, A. L. & Fettes, D. J. 2002. The Northern Highland and Grampian Terranes. In Trewin, N. H. (ed.) The Geology of Scotland, 83. London: The Geological Society.Google Scholar
Strachan, R. A., Holdsworth, R. E., Krabbendam, M. & Alsop, G. I. 2010. The Moine Supergroup of NW Scotland: insights into the analysis of polyorogenic supracrustal sequences. In Law, R. D., Butler, R. W. H., Holdsworth, R. E., Krabbendam, M. & Strachan, R. A. (eds) Continental Tectonic and Mountain Building: The Legacy of Peach and Horne. Geological Society of London, Special Publication 335, 233254. London & Bath: The Geological Society. 864 pp.Google Scholar
Tanner, P. W. G. 1976. Progressive regional metamorphism of thin calcareous bands from the Moinian rocks of N.W. Scotland. Journal of Petrology 17, 100134.Google Scholar
Tanner, P. W. G. & Miller, R. G. 1980. Geochemical evidence for loss of Na and K from Moinian calc-silicate pods during prograde metamorphism. Geological Magazine 117, 267275.Google Scholar
van Schmus, W. R., Martin, M. W., Sprowl, D. R., Geisman, J. & Barendsen, P. 1990. Age, Nd and Pb isotopic composition and magnetic anomaly for subsurface samples of the 1100Ma mid-continent rift. Geological Society of America, Abstracts with Programs 22, A174.Google Scholar
Wilson, M. 1989. Igneous Petrogenesis. London: Chapman & Hall. xx + 466 pp.Google Scholar
Winchester, J. A. 1972. The petrology of Moinian calc-silicate gneisses from Fannich Forest and their significance as indicators of metamorphic grade. Journal of Petrology 13, 405424.Google Scholar
Winchester, J. A. 1975. Epidotic calc-silicates of Arnipol Type – a widely distributed minor sedimentary facies of the Moinian assemblage, Scotland. Geological Magazine 112, 175181.Google Scholar
Winchester, J. A. 1984. The geochemistry of the Strathconon amphibolites, Northern Scotland. Scottish Journal of Geology 20, 3751.Google Scholar
Winchester, J. A. & Floyd, P. A. 1977. Geochemical discrimination of different series and their differentiation products using immobile elements. Chemical Geology 20, 325343. Google Scholar