Hostname: page-component-586b7cd67f-t7fkt Total loading time: 0 Render date: 2024-11-27T22:22:38.538Z Has data issue: false hasContentIssue false
  • English
  • Français

The ‘Clay-with-Flints’ deposit in Northern Ireland: reassessment of the evidence for an early Paleocene ignimbrite

Published online by Cambridge University Press:  27 October 2017

MARK R. COOPER ,
VALENTIN R. TROLL  and
KIRSTIN LEMON
MARK R. COOPER*
Affiliation:
Geological Survey of Northern Ireland, Dundonald House, Upper Newtownards Road, Belfast, BT4 3SB, UK
VALENTIN R. TROLL
Affiliation:
Department of Earth Sciences, Section for Mineralogy, Petrology and Tectonics, Uppsala University, Villavägen 16, 752 36 Uppsala, Sweden
KIRSTIN LEMON
Affiliation:
Geological Survey of Northern Ireland, Dundonald House, Upper Newtownards Road, Belfast, BT4 3SB, UK
*
Author for correspondence: [email protected]
Get access Rights & Permissions [Opens in a new window]

Abstract

Reassessment of key geological sections, field relationships and petrographical characteristics of the Northern Ireland ‘Clay-with-Flints’ and ‘Donald's Hill Ignimbrite Formation’ show they formed dominantly by sedimentary processes. The involvement of a previously postulated pyroclastic flow during early Paleocene time is not recognized and, as such, the Donald's Hill Ignimbrite Formation stratigraphic term is discounted. Instead a multistage model of formation by sedimentary accumulation and remobilization is presented and the term Clay-with-Flints is retained. Regionally, two dominant facies are recognized in most Clay-with-Flints sections. Facies 1 was formed by an initial accumulation of flints on a chalk landscape undergoing karstification, and involved deposition of a clay matrix derived predominantly from contemporaneous erosion of subtropical soil horizons formed mainly on basalt. In Facies 2, evidence is observed for widespread remobilization of Facies 1 deposits by high-density mudflows driven by the advancement of the Antrim Lava Group, which caused the blockage of subsurface and marginalization of surface drainage. A stratigraphical constraint imposed by the presence of a supposed ignimbrite in this part of the North Atlantic Igneous Province has been problematic, but this is resolved by its identification as a diachronous, sedimentary deposit that formed until buried by either the lower or upper formations of the Antrim Lava Group.

Keywords

‘Clay-with-Flints’ignimbritePaleocenestratigraphy
Type
Original Article
Information
Geological Magazine , Volume 155 , Issue 8 , November 2018 , pp. 1811 - 1820
Copyright
Copyright © Crown Copyright. Published by Cambridge University Press 2017 

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

Achyuthan, H. & Ferdorf, N. 2008. Ferricretes in Tamil Nadu, Chennai, south-eastern India: from landscape to micromorphology, genesis, and paleoenvironmental significance. In New Trends in Soil Micromorphology (eds. Kapur, S., Mermut, A. & Stoops, G.), pp. 111–36. Berlin Heidelberg: Springer.Google Scholar
Branney, M. J. & Kokelaar, P. 1992. A reappraisal of ignimbrite emplacement: progressive aggradation and changes from particulate to non-particulate flow during emplacement of high-grade ignimbrite. Bulletin of Volcanology 54, 504–20.Google Scholar
Branney, M. J. & Sparks, R. S. J. 1990. Fiamme formed by digenesis and burial-compaction in soils and subaqueous sediments. Journal of the Geological Society, London 147, 919–22.Google Scholar
Cooper, M. R. 2004. Chapter 14, Palaeogene extrusive igneous rocks. In The Geology of Northern Ireland – Our Natural Foundation, 2nd edition (ed. Mitchell, W. I.), pp. 167–78. Belfast: Geological Survey of Northern Ireland.Google Scholar
Cooper, M. R., Anderson, H., Walsh, J. J., Van Dam, C. L., Young, M. E., Earls, G. & Walker, A. 2012. Palaeogene Alpine tectonics and Icelandic plume-related magmatism and deformation in Ireland. Journal of the Geological Society, London 169, 2936.Google Scholar
Cooper, M. R. & Johnston, T. P. 2004. Chapter 15, Palaeogene intrusive igneous rocks. In The Geology of Northern Ireland – Our Natural Foundation, 2nd edition (ed. Mitchell, W. I.), pp. 179–98. Belfast: Geological Survey of Northern Ireland.Google Scholar
Fletcher, T. P. 1977. Lithostratigraphy of the Chalk (Ulster White Limestone Formation) in Northern Ireland. Report of the Institute of Geological Sciences, 77/24.Google Scholar
Ganerød, M., Chew, D. M., Smethurst, M. A., Troll, V. R., Corfu, F., Meade, F. & Prestvik, T. 2011. Geochronology of the Tardree Rhyolite Complex, Northern Ireland: Implications for zircon fission track studies, the North Atlantic Igneous Province and the age of the Fish Canyon Sanidine Standard. Chemical Geology 286, 222–8.Google Scholar
Ganerød, M., Meade, F., Troll, V. R., Emeleus, H. & Chew, D. 2013. Major felsic volcanism during the interbasaltic “quiet period” of the Antrim plateau basalts. EGU General Assembly, 7–12 April, Vienna, Austria: EGU2013-7119.Google Scholar
Ganerød, M., Smethurst, M. A., Torsvik, T. H., Prestvik, T., Rousse, S., McKenna, C., Van Hinsbergen, D. J. J. & Hendriks, B. W. H. 2010. The North Atlantic Igneous Province reconstructed and its relation to the Plume Generation Zone: the Antrim Lava Group revisited. Geophysical Journal International 182, 183202.Google Scholar
Geological Survey of Northern Ireland (GSNI). 1997. Northern Ireland Solid Geology (Second Edition) 1:250 000 (Keyworth, Nottingham; British Geological Survey).Google Scholar
Geological Survey of Northern Ireland (GSNI). 2007. Dungiven. Northern Ireland sheet 18. Bedrock Geology. 1:50 000 (Keyworth, Nottingham; British Geological Survey).Google Scholar
Gould, R. 2004. Antrim lava field: flow patterns and provenance of interbasaltic zircons. Unpublsihed PhD Thesis, Trinity College Dublin, 366 pp.Google Scholar
Hill, I. G., Worden, R. H. & Meighan, I. G. 2000. Geochemical evolution of a palaeolaterite: the Interbasaltic Formation, Northern Ireland. Chemical Geology 166, 6584.Google Scholar
Hill, I. G., Worden, R. H. & Meighan, I. G. 2001. Formation of interbasaltic laterite horizons in NE Ireland by early Tertiary weathering processes. Proceedings of the Geologists’ Association 112, 339–48.Google Scholar
Hodgson, J. M., Catt, J. A. & Weir, A. H. 1967. The origin and development of Clay with Flints and associated soil horizons on the South Downs. European Journal of Soil Science 18, 85102.Google Scholar
Kobberger, G. & Schmincke, H. U. 1999. Deposition of rheomorphic ignimbrite D (Mogán Formation), Gran Canaria, Canary Islands, Spain. Bulletin of Volcanology 60, 465–85.Google Scholar
Lyle, P. & Patton, D. J. S. 1989. The petrography and geochemistry of the Upper Basalt Formation of the Antrim Lava Group in Northeast Ireland. Irish Journal of Earth Sciences 10, 3341.Google Scholar
McGugan, A. 1957. Upper Cretaceous formation from Northern Ireland. Journal of Paleontology 31, 329–48.Google Scholar
Mitchell, W. I. 2004a. Chapter 13, The Cretaceous–Palaeogene (K-T) Boundary. In: The Geology of Northern Ireland – Our Natural Foundation, 2nd edition (ed. Mitchell, W. I.), pp. 161–66. Belfast: Geological Survey of Northern Ireland.Google Scholar
Mitchell, W. I. 2004b. Chapter 12, Cretaceous. In The Geology of Northern Ireland – Our Natural Foundation, 2nd edition (ed. Mitchell, W. I), pp. 149–60. Belfast: Geological Survey of Northern Ireland.Google Scholar
Mitchell, W. I. 2010. The Clay-with-Flints in Northern Ireland. Earth Science Conservation Review, Northern Ireland Environment Agency.Google Scholar
Mitchell, W. I., Cooper, M. R., Hards, V. & Meighan, L. G. 1999. An occurrence of silicic volcanic rocks in the early Palaeogene Antrim Lava Group of Northern Ireland. Scottish Journal of Geology 35, 179–85.Google Scholar
Schmincke, H. U. 2004. Volcanism. Berlin: Springer, 324 pp.Google Scholar
Simms, M. J. 2000. The sub-basaltic surface in northeast Ireland and its significance for interpreting the Tertiary history of the region. Proceedings of the Geologists’ Association 111, 321–36.Google Scholar
Wilson, H. E. 1965. Lava ploughing in the Tertiary basalts of County Antrim. Geological Magazine 102, 538–40.Google Scholar