Abstract
Subsidence involves sinking of the ground surface. The movement generally is localised and may or may not involve some amount of horizontal movement. It may be rapid or take place gradually over a period of time. Subsidence may be brought about by natural causes as, for example, when the roof of a cavern in limestone is weakened to the extent that it is no longer self-supporting and so collapses. Other more exotic examples are associated with volcanism and earthquakes. Perhaps, however, subsidence is more frequently associated with movements caused by mining activities, that is, the removal of mineral deposits, be they in solid, liquid or gaseous form, from within the ground. Mining is one of the earliest activities of man and has taken place in every continent. Subsidence also can result from subsurface excavations such as tunnels, caverns, cellars and sewers. One of the added problems of some forms of subsidence is that it is impossible to predict. This, coupled with the fact that the presence of potentially collapsible voids may be unknown, unrecorded or simply forgotten about further complicates the problem. The objectives of this paper are to document and draw attention to a number of unusual examples of subsidence. These have been generated due to the mining of chalk in southern England, the collapse of slate mines and caverns in Germany, the underground extraction of evaporites in Northern Ireland, fault reactivation in Wales and northern England and the extensive extraction of pumice on the flanks of Galeras volcano in Colombia.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bell FG, Culshaw MG, Moorlock BSP, Cripps JC (1992) Subsidence and ground movements in chalk. Bull Int Assoc Eng Geol 45:75–82
Bohórquez L (2003) Capítulo 5: Identificación y caracterización de la actividad miera subterránea de materiales de construcción en el Municipio de Pasto. Evaluación de los efectos actuales de subsidencia y colapsos por actividades de aprovechamiento subterráneo de recursos minerales en la ciudad de San Juan de Pasto. Final Report. Report of INGEOMINAS, Bogotá
Calvache ML (1995) The geological evolution of Galeras volcanic complex. PhD Thesis, Arizona State University
Carrillo V (2003) Capitulo 2: Caracterización Geológica del área de estudio. Evaluación de los efectos actuales de subsidencia y colapsos por actividades de aprovechamiento subterráneo de recursos minerales en la ciudad de San Juan de Pasto. Report of INGEOMINAS, Bogotá
Charman JH, Cooper CG (1987) The Frindsbury area, Rochester: a review of historical data and their implication on subsidence in an urban area. In: Culshaw MG, Bell FG, Cripps JC, O’Hara M (eds) Planning and engineering geology. Eng Geol Spec Publ No 4. Geol Soc London, pp 115–124
Clarke RR (1963) Grime’s Graves, Norfolk. Report for the Department of the Environment. Her Majesty’s Stationery Office, London
Donnelly LJ (1994) Predicting the reactivation of geological faults and rock mass discontinuities during mineral exploitation, mining subsidence and geotechnical engineering. PhD Thesis, University of Nottingham
Donnelly LJ (1997) Nevado del Ruiz Volcano, Galeras Volcano and the Manizales Volcanological & Seismological Observatory, Colombia, South America. British Geological Survey, WN/97/38
Donnelly LJ (1998) Mining subsidence at Carrickfergus Salt Mines Northern Ireland. British Geological Survey & Geological Survey of Northern Ireland, PN/98/7
Donnelly LJ (2000) The reactivation of geological faults during mining subsidence from 1859 to 2000 and beyond. Trans Inst Mining Metallurgy 109:A179-A190
Donnelly LJ, Bell FG, Culshaw MG (2000) Some positive and negative aspects of mine abandonment and their implications on infrastructure. European Geology for Infrastructure Planning in Europe. A European Perspective. First European Regional IAEG Conference, Springer, 719–726, 4 to 6 May 2004 Liège, Belgium
Donnelly LJ, Melton ND (1995) Compression ridges in the subsidence trough. Geotech J Inst Civil Eng 45(3):555–560
Donnelly LJ, Reddish DJ (1994) The development of surface steps during mining subsidence: not due to fault reactivation. Eng Geol 36:243–255
Donnelly LJ, Rees J (2001) Tectonic and mining-induced fault reactivation around Barlaston on the Midlands Microcraton, part 2. Q J Eng Geol Hydrogeol 34:195–214
Donnelly LJ, Whittaker BN, Reddish DJ (1993) Ground deformation mechanisms at fault outcrops during mining subsidence: a geological perspective. In: Conference on mine subsidence in urban and developed areas, Rock Springs, Wyoming, 9–10 September 1993
Donnelly LJ, Dumpleton S, Culshaw MG, Shedlock SL, McCann DM (1998a) The legacy of abandoned mining in the urban environment in the UK. Ground Engineering, July 1998, p 29
Donnelly LJ, Dumpleton S, Culshaw MG, Shedlock SL, McCann DM (1998b) The legacy of abandoned mining in the urban environment in the UK. Polluted and marginal land—98. In: Proceedings of the 5th international conference and exhibition. Re-use of contaminated land and landfills, Brunel University, 7–9 July 1998
Donnelly LJ, Northmore KJ, Jermy CA (2000a). Fault reactivation in the vicinity of landslides in the South Wales coalfield. In: Proceedings of the ISSMGE and BGS 8th international symposium on landslides, 26–30 June 2000
Donnelly LJ, Northmore KJ, Siddle HJ (2000b) Lateral spreading of Moorland in South Wales. In: Proceedings of the ISSMGE and BGS 8th international symposium on landslides, 26–30 June 2000
Donnelly LJ, Northmore KJ, Siddle HJ (2002) Block movements in the Pennines and South Wales and their association with landslides, part 1. Geological Society of London, Symposium in Print, Q J Eng Geol Hydrogeol 35:33–39
Doyle JB (1853) Notes on the salt mine of Duncrue. Trans Geol Soc Dublin 5:232–236
Edmonds CN, Green CP, Higginbottom IE (1987) Subsidence hazard prediction for limestone terrains, as applied to the English Cretaceous Chalk. In: Culshaw MG, Bell FG, Cripps JC, O’Hara M (eds) Planning and engineering geology. Engineering geology special publication no. 4. The Geological Society, London, pp 283–294
Griffith AE (1991) Tennant’s ills. Ground engineering, November 1991, pp 18–21
Griffith AE, Wilson HE (1991) Geology of the country around Carrickfergus and Bangor. Mem Geol Surv Northern Ireland, sheet 29
Hubbert MK, Rubey WW (1959) Role of fluid pressure in mechanics of overthrust faulting. Geol Soc Am Bull 70:115–166
Manning PI (1965) Visit to the Tennant salt mine, Eden, Carrickfergus, Ireland. Nat J 15:16–19
Sibson RH (1977) Fault rocks and fault mechanics. J Geol Soc Lond 133:191–214
Smith JA, Colls JJ (1996) Groundwater rebound in the Leicestershire Coalfield. J Chartered Inst Water Environ Manag 10:280–289
Smith GJ, Rosenbaum MS (1993) Abandoned shallow mine workings in chalk: a review of the geological aspects leading to their destabilisation. Bull Int Assoc Eng Geol 48:101–108
Terzaghi K (1923) Die Berechnung der Durchfassigkeitsziffer des Tones aus dem Verlauf der hydrodynamischen Spannungserscheinungen. Sitz. Akad. Wiss. Wien. Mayh. Naturwiss. Kl., Abt. 2a, 132
Wilde PM, Crook JM (1984) The significance of abnormal ground movements due to deep coal mining and their effects on large scale surface developments at Warrington New Town. In: Proceedings of the Conference on ground movements and structures, UWIST, Cardiff, pp 240–247
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Bell, F.G., Donnelly, L.J., Genske, D.D. et al. Unusual cases of mining subsidence from Great Britain, Germany and Colombia. Environ Geol 47, 620–631 (2005). https://doi.org/10.1007/s00254-004-1187-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00254-004-1187-9