Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-22T20:38:59.510Z Has data issue: false hasContentIssue false

The use of ground penetrating radar (GPR) in the investigation of historical quarry abandonment in Svalbard

Published online by Cambridge University Press:  20 January 2016

Benjamin Koster
Affiliation:
Neotectonics and Natural Hazards Group; RWTH Aachen University, Lochnerstr. 4-20; 52056 Aachen; Germany ([email protected])
Frigga Kruse
Affiliation:
Arctic Centre, University of Groningen, Aweg 30; 9718 CW Groningen; Netherlands

Abstract

This paper investigates historical quarry abandonment in Spitsbergen, Svalbard. A short-lived British marble quarry in Kongsfjorden lay deserted after 1920. We ask why this attempt at the large-scale development of Arctic marble was unproductive; whether there are structural features that affected the known historical trenches and boreholes; and whether the reason for abandonment was primarily geological. During interdisciplinary fieldwork rooted in industrial archaeology and structural geology, we employed medium-resolution ground penetration radar (GPR) to discern subsurface disturbances near the workings. Seven survey grids gave rise to both areas of fracturing and folding as well as areas of sound marble. Using complementary historical documents, we are able to dispel the myths that permafrost or shattered surface rock affected workability and profitability. Although structural disturbances were present, bedrock geology was, in fact, less important than the proportion of waste rock to marketable product. Whether a product was marketable depended on a multitude of other factors. This paper moves away from oversimplified reasoning in mining history and promotes the bridging of geological and historical scales in order to understand the full suite of local and global driving forces in the historical process.

Type
Research Article
Copyright
Copyright © Cambridge University Press 2016 

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

Aalders, Y., Avango, D., Gustafsson, U. and others. 2009. LASHIPA 5. Archaeological expedition on Spitsbergen 27 July – 17 August 2008. Groningen: Arctic Centre (fieldwork report).Google Scholar
Barne, M. 1914. Diary. (Unpublished document held on loan by A. Erskine).Google Scholar
Barr, S., Newman, D. and Nesteroff, G.. 2012. Ernest Mansfield (1862–1924): gold, or I’m a Dutchman. Trondheim: Akademika Publishing.Google Scholar
Booth, D. 1912–1913. Day book, machine D. Booth. Goldhanger: David Newman colection.Google Scholar
Buggisch, W., Piepjohn, K., Thiedig, F. and other. 1992. A middIe Carboniferous conodont fauna from Blomstrandhalvoya (NW-Spitsbergen): implications on the age of post-Devonian karstification and the Svalbardian deformation. Polarforschung 62 (2/3): 8390.Google Scholar
Dallmann, W. 2007. Geology of Svalbard. In: Sigmond, E.M.O. and Roberts, D. (editors). Geology of the land and sea areas of northern Europe. Trondheim: Norges geologiske undersøkelse (special publication 10): 8789.Google Scholar
Dallmann, W. (editor) 2015. Geosciences atlas of Svalbard. Tromsø: Norwegian Polar Institute.Google Scholar
Elvevold, S., Blomeier, D. and Dallmann, W.. 2007. Geology of Svalbard. Tromsø: Norsk Polarinstitutt.Google Scholar
Erskine, A.B. 1994. Victor Campbell and Michael Barne in Svalbard: the 1914 voyage of Willem Barents. Polar Record 30 (173): 117122.Google Scholar
Godio, A., Sambuelli, L. and Ferrero, A.M.. 2003. Geophysical investigation to optimize excavation of an underground marble quarry in Stazzema, Italy. The Leading Edge 22 (6): 574578.Google Scholar
Grandjean, G. and Gourry, J. 1996. GPR data processing for 3D fracture mapping in a marble quarry (Thassos, Greece). Journal of Applied Geophysics 36 (1): 1930.Google Scholar
Ingólfsson, Ó. and Landvik, J.Y.. 2013. The Svalbard–Barents Sea ice-sheet – Historical, current and future perspectives. Quaternary Science Reviews 64: 3360.CrossRefGoogle Scholar
Johnson, S., Mørk, A., Dypvik, H. and other. 2001. Outline of the geology of Svalbard - short geological review and guidebook. Longyearbyen: ESF (7th ESF IMPACT Workshop).Google Scholar
Kruse, F. 2013. Frozen assests. British mining, exploration, and geopolitics on Spitsbergen, 1904–53. Eelde: Barkhuis PublishingGoogle Scholar
Lauritzen, S.-E. 2006. Caves and speleogenesis at Blomstrandsøya, Kongsfjord, W. Spitsbergen. International Journal of Speleology 35 (1): 3758.Google Scholar
Leech, H.W. 1920. Report on various marble properties in Spitsbergen. Tromsø: Norwegian Polar Institute Archive. Northern Exploration Company (N.E.C.) box.Google Scholar
Lehman, S.J. and Forman, S.L. 1992. Late Weichselian glacier retreat in Kongsfjorden, west Spitsbergen, Svalbard. Quaternary Research 37 (2): 139154.Google Scholar
Neal, A. and Roberts, C.L. 2000. Applications of ground-penetrating radar (GPR) to sedimentological, geomorphological and geoarchaeological studies in coastal environments. In: Pye, K. and Allen, J.R.L. (editors). Coastal and estuarine environments. Sedimentology, geomorphology and geoarchaeology. London: Geological Society (Geological Society special publication 175): 139171.Google Scholar
Neal, A. 2004. Ground-penetrating radar and its use in sedimentology: principles, problems and progress. Earth-Science Reviews 66 (3–4): 261330.Google Scholar
Pirli, M., Schweitzer, J. and Paulsen, B. 2013. The Storfjorden, Svalbard, 2008–2012 aftershock sequence: seismotectonics in a polar environment. Tectonophysics 601: 192205.Google Scholar
Renwick, W.G. 1909. Marble and marble working; a handbook for architects, sculptors, marble quarry owners and workers, and all engaged in the building and decorative industries. London: C. Lockwood and Son.Google Scholar
Sambuelli, L. and Calzoni, C. 2010. Estimation of thin fracture aperture in a marble block by GPR sounding. Bollettino di Geofisica Teorica ed Applicata 51 (2–3): 239252.Google Scholar
Siggerud, T. 1963. On the marble-beds at Blomstrandhalvøya in Kongsfjorden. Tromsø: Norsk Polarinstitutt Årbok 1962: 4449.Google Scholar
Stange, R. 2012. Spitsbergen Svalbard. A complete guide around the arctic archipelago. Huckstorf: Stange.Google Scholar
Thiedig, F. and Manby, G.M. 1992. Origins and deformation of post-Caledonian sediments on Blomstrandhalvøya and Lovenøyane, northwest Spitsbergen. Norsk Geologisk Tidsskrift 72: 2733.Google Scholar
Thiedig, F., Saalmann, K. and Piepjohn, K. 1997. Geological map of Brøggerhalvøya and Blomstrandhalvøya, NW-Spitsbergen 1:40,000. Hannover: Geologisches Jahrbuch (B91).Google Scholar