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Ground water withdrawal and land subsidence in northeastern Saxony (Germany)

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Abstract

Several large open pit lignite mines are located in northeastern Saxony, Germany. To guarantee the production of electric power until the year 2026, a couple of these pits have to be extended. Most of the open pits are, at most, 120–150 meters deep. Nevertheless, a large area is affected by ground water withdrawal. There is a concern that differential subsidence due to mine dewatering might cause vertical stress and building damage. The area of investigation is a 2km2 large building complex built in the early 1970’s. It will be dewatered to a depth of 70 m below the surface, resulting in subsidence that has been predicted by both analytical and empirical methods.

From empirical calculations, based on subsidence measurements, a total subsidence of 0.2–0.5 m was predicted. Analytical calculations, on the other hand, using the principles of Terzaghi’s consolidation theory, yielded an average possible subsidence of 1.1–1.6 m by the end of 2026. These differences might be due to the fact that sand and gravel lenses in the tertiary clays have not been fully dewatered, or that some of the less permeable units will subside very slowly, or that the sediments were compacted more by the Pleistocene glaciers than expected. Taking into consideration the calculations as well as the known measurements, a subsidence of at least 0.2 m is highly likely. Due to the geological situation, differential subsidence and the associated damage is possible for part of the area.

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References

  • Acosta-Gonzales, G. and D. L. Redell, 1980. Optimal Use of Groundwater and Surface Water to Reduce Land Subsidence. Texas A&M University Technical Report, 103: 228.

    Google Scholar 

  • Alexowsky, W., G. Standke and P. Suhr, 1989. Beitrag zur weiteren lithostratigraphischen Untergliederung des Tertiärprofils in der Niederlausitz. Geoprofil, 1: 57–62.

    Google Scholar 

  • Brause, H. 1990. Beiträge zur Geodynamik des Saxothuringikums. Geoprofil, 2: 1–88.

    Google Scholar 

  • Brause, H. and H. G. Hahmann, 1989. Kipp-Gleit-Tektonik Typ Nochten. Geoprofil, 1: 63–64.

    Google Scholar 

  • Brause, H., J. Rascher and A. Seifert, 1989. Transgressionsgeschichte und Kohlenqualität im Miozän der Lausitz. Geoprofil, 1: 18–30.

    Google Scholar 

  • Dassargues, A. 1995. On the necessity to consider varying parameters in land subsidence computations. In: Barends, F.B., F.J.J. Brouwer and F.H. Schröder (Editors), Proc. of the 5th International Symposium on Land Subsidence, held at The Hague, The Netherlands, 16–20 October 1995, IAHS Press, Wallingford, Oxfordshire, pp. 258–269.

    Google Scholar 

  • Donaldson, E.C. 1995. Simulation of compaction due to fluid withdrawal. In: Chilingorian, G.H., E.C. Donaldson and T.F.Yen (Editors), Subsidence due to fluid withdrawal. Developments in Petroleum Science 41. Elsevier, pp. 425–439.

  • Eissmann, L. 1987. Lagerungsstörungen im Lockergebirge. Geophys. u. Geol., III: 7–77.

    Google Scholar 

  • Fenk, J. 1976. Senkungen der Tagesoberfläche als Folge von Grundwasserentzug. Neue Bergbautechnik, 6: 198–200.

    Google Scholar 

  • Förster, W., K. Ulbricht and M. Wittig, 1992. Senkungsprognose Zittau. Neue Bergbautechnik, 22: 62–66.

    Google Scholar 

  • Gloe, C. P. 1979. Bodensetzung infolge Grundwasserentzugs, erläutert am Beispiel des Latrobe-Tals, Viktoria, Australien. Braunkohle, 1979: 261–267.

  • Gudgeon, D.L., M.F. Warner and J. Stowell, 1988. Prediction of settlement due to dewatering for deep excavation. In: Bell, F.G., M.G. Culshaw, J. C. Cripps and M.A. Lovell (Editors), Engineering Geology of Underground Moments. Geological Society of London, pp. 377–386.

  • Hanson, R.T., P.R. Anderson and D.R. Pool, 1990. Simulation of Groundwater Flow and potential Land Subsidence, Aura Valley, Arizona. Water Resources Investigations Report # 90-4178, Reston, VA, U.S., 41 pp.

  • Helm, D.C. 1984. Field-based computational techniques for predicting subsidence due to fluid withdrawal. In: Holzer, T. (Editor), Reviews in Engineering Geology—Man-induced Land Subsidence, Geological Society of America, pp. 1–22.

  • Herth, W. and E. Amdts, 1994. Theorie und Praxis der Grundwasserabsenkung. 3rd. ed., Ernst & Sohn, Berlin, 357 pp.

    Google Scholar 

  • Heydenreich, H. 1969. Der zeitliche Ablauf der vertikalen Bodenbewegungen bei örtlich stationären und veränderlichen Grundwasserstandsänderungen und bei Überlagerungen nach Messungen in situ. Bergbautechnik, 19: 627–631.

    Google Scholar 

  • Holzer, T.L. 1984. Ground failure induced by ground-water withdrawal from unconsolidated sediment. Geological Society of America, pp. 67–105.

  • Johnson, A.I. 1986. Land Subsidence, In: Proceedings, 3rd Internat. Symp. on Land Subsidence held in Venice, Italy, 19–25, March 1984. IAHS, Wallingford, 939 pp.

    Google Scholar 

  • Kaden, S. 1997. Water Resources Modeling for Decision Support in Open-pit Lignite Mining Areas. In: Proceedings, 6th Internat. Mine Water Congress, Bled, Slovenia, pp. 385–395.

  • Kögler, F. and H. Leussink, 1938. Setzungen durch Grundwasserabsenkung. Die Bautechnik, 15: 409–413.

    Google Scholar 

  • Kupetz, M. 1996. Der Muskauer Faltenbogen—ein Geotop von europäischer Bedeutung. Brandenburgische Geowissenschaftliche Beiträge, 3: 125–136.

    Google Scholar 

  • Kupetz, M., G. Schubert, A. Seifert and L. Wolf, 1989. Quartärbasis, pleistozäne Rinnen und Beispiele glazitektonischer Lagerungsstörungen im Niederlausitzer Braunkohlengebiet. Geoprofil, 1: 2–17.

    Google Scholar 

  • Lausitzer Braunkohle Aktiengesellschaft, 1995. Das schwarze Gold der Lausitz. 3rd ed. Eigenverlag, Senftenberg, 29 pp.

    Google Scholar 

  • Leake, P.A. and D.E. Prudie, 1988. Documentation of a computer program to simulate aquifersystem compaction using the modular finite-difference ground-water flow model. USGS, Menlo Park, Cal., OFR #88-482: 80 pp.

    Google Scholar 

  • Lofgren, B.E. 1975. Land subsidence due to ground-water withdrawal, Arvin-Maricopa area, CA. USGS Professional Paper, 437-D, Washington, D.C., 55 pp.

  • Lotsch, D. 1979. Entwicklungsbericht zur Standardisierungaufgabe TGL 25234/08. Zentrales Geologisches Institut, Berlin.

    Google Scholar 

  • Meier, J. and J. Rascher, 1995. Exkursion: Bergbau und Bergbaufolgelandschaft im Bereich der Kohlenfelder Nochten und Lohsa. Exkursionsführer und Veröffentlichungen der Gesellschaft für Geowissenschaften, 196: 47–59.

    Google Scholar 

  • Nowel, W., R. Bönisch, W. Schneider and H. Schulze, 1994. Geologie des Lausitzer Braunkohlenreviers, Lausitzer Braunkohle Aktiengesellschaft, Senflenberg, 102 pp.

    Google Scholar 

  • Oostindie, K. and J.J.B. Bronswijk, 1992. FLOCR—A simulation model for the calculation of water balance, cracking and surface subsidence of clay soils. Winand Staring Centre for Integrated Land, Soil and Water Research, 47: 53, Wageningen.

    Google Scholar 

  • Poland, J.F. 1984. Guidebook to studies of land subsidence due to ground-water withdrawal. In: Studies and Reports in Hydrology. Unesco, Paris, 305 pp.

    Google Scholar 

  • Rasche, H. and J. Fenk, 1987. Senkungen der Tagesoberfläche durch Grundwasserentzug im Braunkohlenbergbau der Deutschen Demokratischen Republik. Neue Bergbautechnik, 17: 128–131.

    Google Scholar 

  • Rascher, J. and W. Böhnert, 1995. Ergebnisse von geologischen Untersuchungen und Biotopkartierungen im Raum Nochten/Reichwalde als Grundlage zur weiteren Ausgestaltung der Bergbaufolgelandschaft. Exkursionsführer und Veröffentlichungen der Gesellschaft für Geowissenschaften, 196: 33–42.

    Google Scholar 

  • Rathsmann, W. 1986. Bodenbewegung als Folge von Grundwasserentzug im rheinischen Braunkohlerevier. Braunkohle, 1986: 82–86.

    Google Scholar 

  • Regionaler Planungsverband Oberlausitz-Niederschlesien, 1993. Braunkohlenplan Tagebau Nochten für das Vorhaben Weiterführung des Tagebaues Nochten 1994 bis Auslauf. In: Regionale Planungsstelle Oberlausitz-Niederschlesien: Braunkohlenplan Tagebau Nochten, Bautzen, pp. 1–57.

  • Routschek, H. 1968. Einiges zur Bodensetzung infolge Grundwasserentzuges. Bergbautechnik, 18: 630–634.

    Google Scholar 

  • Rudolf, H. 1969. Senkungen im Bereich von Braunkohletagebauen als Folge von Grundwasserentzug. Bergbautechnik, 19: 16–22.

    Google Scholar 

  • Rudolf, H. 1974. Ursachen von Bodenbewegungen im Geiseltal und Auftreten von Bergschäden. Neue Bergbautechnik, 4: 567–573.

    Google Scholar 

  • Terzaghi, K. 1925. Erdbaumechanik und bodenphysikalische Grundlage. Deutike, Leipzig, 399 pp.

    Google Scholar 

  • Terzaghi, K. and R. Jelinek, 1954. Theoretische Bodenmechanik, Springer, Berlin.

    Google Scholar 

  • Waltham, A.C. 1989. Ground Subsidence. Blackie, Glasgow, pp. 116–140.

    Google Scholar 

  • Whittaker, B.N. and D.J. Reddish, 1989. Subsidence-Occurence, Prediction and Control. In: Developments in Geotechnical Engineering. Elsevier, Amsterdam, 528 pp.

    Google Scholar 

  • Whittaker, B.N., D.I. Reddish and G. Sun, 1991. Mine Design and Planning Aspects: Undermining Aquifers and Surface Water Bodies. In: Proceedings, 4th Internat. Mine Water Congress, Ljublijana, Vol. 2, pp. 199–210.

  • Wilkening, W. 1975. Setzungsbeobachtungen am Nordrand des Tagebaus Alversdorf. Braunkohle, 1975: 183–189.

    Google Scholar 

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Authors and Affiliations

  1. TU Bergakademie, Freiberg

    Ch. Wolkersdorfer

  2. Lehrstuhl für Hydrogeologie, 09596, Freiberg, Germany

    Ch. Wolkersdorfer

  3. IFG Ingenieurbüro für Geotechnik, 02625, Bautzen, Germany

    G. Thiem

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  1. Ch. Wolkersdorfer
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  2. G. Thiem
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Wolkersdorfer, C., Thiem, G. Ground water withdrawal and land subsidence in northeastern Saxony (Germany). Mine Water and the Environment 18, 81–92 (1999). https://doi.org/10.1007/BF02687252

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