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Research/review articles

High-resolution electrical resistivity tomography applied to patterned ground, Wedel Jarlsberg Land, south-west Spitsbergen

Marek KasprzakInstitute of Geography and Regional Development, University of Wrocław, pl. Uniwersytecki 1, PL-50-137Wrocław, PolandCorrespondence[email protected]
Article: 25678 | Published online: 18 Jun 2015

References

  • Ballantyne C.K. Scott A.E. Patterned ground. Encyclopedia of quaternary science. 2007; Amsterdam: Elsevier. 2182–2191.
  • Ballantyne C.K., Matthews J. The development of sorted circles on recently deglaciated terrain, Jotunheimen, Norway. Arctic and Alpine Research. 1982; 14: 341–354.
  • Ballantyne C.K., Matthews J. Desiccation cracking and sorted polygon development, Jotunheimen, Norway. Arctic Alpine Research. 1983; 15: 339–349.
  • Baranowski S. Termika tundry peryglacjalnej SW Spitsbergen. (Thermic conditions of the periglacial tundra in SW Spitsbergen.) Polish I.G.Y. and I.G.C. Spitsbergen Expeditions in 1957–1960. Studia Geograficzne 10, Acta Universitatis Wratislaviensis 68. 1968; Wrocław: University of Wrocław.
  • Boardman J. Periglacial processes and landforms in Britain and Ireland. 1987; Cambridge: Cambridge University Press.
  • Chmal H. Pleistocene sea level changes and glacial history of the Hornsund area, Svalbard. Polar Research. 1987; 5: 269–270.
  • Chmal H., Klementowski J., Migała K. Senneset K. Thermal currents of active layer in Hornsund area. Permafrost. Proceedings of the Fifth International Conference on Permafrost, Trondheim, June 1988. Vol. 1. 1988; Trondheim: Tapir. 44–49.
  • Christensen L. Crop-marks revealing large-scale patterned ground structures in cultivated areas, southwestern Jutland, Denmark. Boreas. 1974; 3: 153–180.
  • Czeppe Z. Roczny przebieg mrozowych ruchów gruntu w Hornsundzie (Spitsbergen) 1957–1958. (Annual course of frost ground movements at Hornsund [Spitsbergen] 1957–1958.) Zeszyty Naukowe Uniwersytetu Jagiellońskiego 42, Prace Geograficzne 3. 1961; Kraków: Jagiellonian University.
  • Czerny J., Kieres A., Manecki M., Rajchel J. Geological map of the SW part of Wedel Jarlsberg Land Spitsbergen, 1:25 000. 1992; Kraków: Institute of Geology and Mineral Deposits, University of Mining and Metallurgy.
  • Dąbski M. Grunty strukturalne w Polsce. (Patterned grounds in Poland.). Przegląd Geograficzny. 2011; 83: 307–321.
  • Drew J.V., Tedrow J.C.F. Arctic soil classification and patterned ground. Arctic. 1962; 15: 109–116.
  • Goudie A.S. Goudie A.S. Patterned ground. Encyclopedia of geomorphology. Vol. 2. 2004; London: Routledge. 765–766.
  • Griffiths D.H., Barker R.D. Two-dimensional resistivity imaging and modelling in areas of complex geology. Journal of Applied Geophysics. 1993; 29: 211–226.
  • Grześ M. Warstwa czynna wieloletniej zmarzliny na zachodnich wybrzeżach Spitsbergenu. (Characteristic of permafrost active layer on the western coast of Spitsbergen.). Przegląd Geograficzny. 1985; 57: 671–691.
  • Hallet B. Lewkowicz A.G., Allard M. Measurement of soil motion in sorted circles, western Spitsbergen. Proceedings of the Seventh International Conference on Permafrost, 23–27 June 1998. Collection Nordicana 57. 1998; Yellowknife: Centre for Northern Studies. 415–420.
  • Hallet B. Stone circles: form and soil kinematics. Philosophical Transactions of the Royal Society A 371. 2013. article no. 20120357.
  • Hallet B., Prestrud S. Dynamics of periglacial sorted circles in western Spitsbergen. Quaternary Research. 1986; 26: 81–89.
  • Harris C., Arenson L.U., Christiansen H.H., Etzelmüller B., Frauenfelder R., Gruber S., Haeberli W., Hauck C., Hölzle M., Humlum O., Isaksen K., Kääb A., Kern-Lütschg M.A., Lehning M., Matsuoka N., Murton J.B., Nötzli J., Phillips M., Ross N., Seppälä M., Springman S.M., Mühll D.V. Permafrost and climate in Europe: monitoring and modelling thermal, geomorphological and geotechnical responses. Earth-Science Reviews. 2009; 92: 117–171.
  • Hilbich C., Marescot L., Hauck C., Loke M.H., Mäusbacher R. Applicability of electrical resistivity tomography monitoring to coarse blocky and ice-rich permafrost landforms. Permafrost and Periglacial Processes. 2009; 20: 269–284.
  • Hubbard S.S., Gangodagamage C., Dafflon B., Wainwright H., Peterson J., Gusmeroli A., Ulrich C., Wu Y., Wilson C., Rowland J., Tweedie C., Wullschleger S.D. Quantifying and relating land-surface and subsurface variability in permafrost environments using LiDAR and surface geophysical datasets. Hydrogeology Journal. 2013; 21: 149–169.
  • Humlum O., Instanes A., Sollid J.L. Permafrost in Svalbard: a review of research history, climatic background and engineering challenges. Polar Research. 2003; 22: 191–215.
  • Jahn A. Badania nad strukturą i temperaturą gleb w Zachodniej Grenlandii. (Investigation on structure and soil temperature in West Greenland.) Rozprawy Wydziału Matematyczno-przyrodniczego 72A (1946), series III, 32(6). 1948; Kraków: Polish Academy of Sciences.
  • Jahn A. Postglacjalny rozwój wybrzeży Spitsbergenu. (Postglacial development of Spitsbergen shores.). Czasopismo Geograficzne. 1959; 30: 245–262.
  • Jahn A. Fairbridge R.W. Patterned ground. Encyclopedia of geomorphology. 1968; New York: Reinhold. 814–817.
  • Jahn A. Patterned ground. In: Problems of the periglacial zone (translated from Polish). 1975; Warsaw: PWN Polish Scientific Publishers. 127–140.
  • Jahn A. Soil thawing and active layer of permafrost in Spitsbergen. In: Acta Universitatis Wratislaviensis 525, Spitsbergen Expeditions 4. 1982; Wrocław: University of Wrocław. 57–75.
  • Kaatz M.R. Patterned ground in central Washington: a preliminary report. Northwest Science. 1959; 33(4): 145–156.
  • Kabała C., Zapart J. Recent, relic and buried soils in the forefield of Werenskiold Glacier, SW Spitsbergen. Polish Polar Research. 2009; 30: 161–178.
  • Karczewski A., Andrzejewski L., Chmal H., Jania J., Kłysz P., Kostrzewski A., Lindner L., Marks L., Pękala K., Pulina M., Rudowski S., Stankowski W., Szczypek T., Wiśniewski E. Hornsund, Spitsbergen geomorphology, 1:75 000. (With commentary to the map by A. Karczewski.). 1990; Katowice: Polish Academy of Sciences, Silesian University.
  • Karhunen K. Electrical resistance tomography imaging of concrete. Dissertations in Forestry and Natural Sciences 122. 2013; Kuopio: University of Eastern Finland.
  • Kasprzak M., Kondracka M. Geophysical signatures of permafrost in SW Spitsbergen. 8th International Conference (AIG) on Geomorphology. Abstract volume. Paris—2013; 27–31 August.
  • Kearey P., Brooks M., Hill I. Keary P. Electrical surveying. An introduction to geophysical exploration. 2002; 3rd edn, Oxford: Blackwell Science.
  • Kessler M.A., Werner B.T. Self-organization of sorted patterned ground. Science. 2003; 299: 380–383.
  • Kling J. Observations on sorted circle development, Abisko, northern Sweden. Permafrost and Periglacial Processes. 1997; 8: 447–453.
  • Kneisel C., Emmert A., Kästl J. Application of 3D electrical resistivity imaging for mapping frozen ground conditions exemplified by three case studies. Geomorphology. 2014; 210: 71–82.
  • Kneisel C., Hauck C. Hauck C., Kneisel C. Electrical methods. Applied geophysics in periglacial environments. 2008; Cambridge: Cambridge University Press. 3–27.
  • Kneisel C., Hauck C., Fortier R., Moorman B. Advances in geophysical methods for permafrost investigations. Permafrost and Periglacial Processes. 2008; 19: 157–178.
  • Krantz W.B. Self-organization manifest as patterned ground in recurrently frozen soils. Earth-Science Reviews. 1990; 29: 117–130.
  • Krautblatter M., Hauck C. Electrical resistivity tomography monitoring of permafrost in solid rock walls. Journal of Geophysical Research—Earth Surface. 2007; 112: 02S20.
  • Leszkiewicz J., Caputa Z. The thermal condition of the active layer in the permafrost at Hornsund, Spitsbergen. Polish Polar Research. 2004; 25: 223–239.
  • Lewkowicz A.G., Etzelmüller B., Smith S.L. Characteristics of discontinuous permafrost based on ground temperature measurements and electrical resistivity tomography, southern Yukon, Canada. Permafrost and Periglacial Processes. 2011; 22: 320–342.
  • Loke M.H. 2000; Gelugor, Malaysia: Geotomo Software. Electrical imaging surveys for environmental and engineering studies. A practical guide to 2-D and 3-D surveys.
  • Loke M.H. Rapid 3-D resistivity & IP inversion using the least-squares method (for 3-D surveys using the pole–pole, pole–dipole, dipole–dipole, rectangular, Wenner, Wenner–Schlumberger and non-conventional arrays). On land, aquatic and cross-borehole surveys. 2013; Gelugor, Malaysia: Geotomo Software.
  • Loke M.H. Tutorial: 2-D and 3-D electrical imaging surveys. 2013b; Gelugor, Malaysia: Geotomo Software.
  • Loke M.H., Chambers J.E., Rucker D.F., Kuras O., Wilkinson P.B. Recent developments in the direct-current geoelectrical imaging method. Journal of Applied Geophysics. 2013; 95: 135–156.
  • Łupikasza E. Marsz A.A., Styszyńska A. Atmospheric precipitation. Climate and climate change at Hornsund, Svalbard. 2013; Gdynia, Poland: Gdynia Maritime University. 199–211.
  • Lusch D.P., Stanley K.E., Schaetzl R.J., Kendall A.D., Van Dam R.L., Nielsen A., Blumer B.E., Hobbs T.C., Archer J.K., Holmstadt J.L.F., May C.L. Characterization and mapping of patterned ground in the Saginaw Lowlands, Michigan: possible evidence for Late-Wisconsin permafrost. Annals of the Association of American Geographers. 2009; 99(3): 1–22.
  • Milsom J. Field geophysics. 2003; 3rd edn, Chichester: Wiley.
  • Marsz A.A. Marsz A.A., Styszyńska A. Air temperature. Climate and climate change at Hornsund, Svalbard. 2013a; Gdynia, Poland: Gdynia Maritime University. 145–187.
  • Marsz A.A. Marsz A.A., Styszyńska A. Humidity. Climate and climate change at Hornsund, Svalbard. 2013b; Gdynia, Poland: Gdynia Maritime University. 189–198.
  • Matsuoka N., Abe M., Ijiri M. Differential frost heave and sorted patterned ground: field measurements and a laboratory experiment. Geomorphology. 2003; 52: 73–85.
  • Migała K. Pyka L. Cechy warstwy aktywnej wieloletniej zmarzliny w warunkach klimatycznych Spitsbergenu. (The characteristic features of the active layer of the permafrost in the climate of Spitsbergen.). Klimat Dolnego Śląska i krain polarnych. (Climate of Lower Silesia and polar lands.) Acta Universitatis Wratislaviensis 1590. Prace Instytutu Geograficznego C Meteorologia i Klimatologia 1. 1994; Wrocław: University of Wrocław. 79–111.
  • Migała K., Wojtuń B., Szymański W., Muskała P. Soil moisture and temperature variation under different types of tundra vegetation during the growing season: a case study from the Fuglebekken catchment, SW Spitsbergen. Catena. 2014; 116: 10–18.
  • Mol L., Viles H.A. Geoelectric investigations into sandstone moisture regimes: implications for rock weathering and the deterioration of San rock art in the Golden Gate Reserve, South Africa. Geomorphology. 2010; 118: 280–287.
  • Niedźwiedź T., Styszyńska A. Marsz A.A., Styszyńska A. Snow cover at the Hornsund Station. Climate and climate change at Hornsund, Svalbard. 2013; Gdynia, Poland: Gdynia Maritime University. 367–372.
  • Overduin P.P., Kane D.L. Frost boils and soil ice content: field observations. Permafrost and Periglacial Processes. 2006; 17: 291–307.
  • Pereyma J. Brázdil R. Climatology. Results of investigations of the geographical research expedition Spitsbergen 1985. 1988; Brno, Czech Republic: Jan Evangelista Purkyne University. 55–68.
  • Peterson R.A., Krantz W.B. Differential frost heave model for patterned ground formation: corroboration with observations along a North American Arctic transect. Journal of Geophysical Research—Biogeosciences. 2008; 113: 03S04.
  • Ray R.J., Krantz W.B., Caine T.N., Gunn R.D. A model for sorted patterned-ground regularity. Journal of Glaciology. 1983; 29: 317–337.
  • Reynolds J.M. An introduction to applied and environmental geophysics. 1997; Chichester: Wiley.
  • Saas O., Viles H.A. Wetting and drying of masonry walls: 2D-resistivity monitoring of driving rain experiments on historic stonework in Oxford, UK. Journal of Applied Geophysics. 2010; 70: 72–83.
  • Samouëlian A., Cousina I., Tabbagh A., Bruandd A., Richard G. Electrical resistivity survey in soil science: a review. Soil and Tillage Research. 2005; 83: 173–193.
  • Schaetzl R., Anderson S. Soil genesis and geomorphology. 2005; Cambridge: Cambridge University Press.
  • Schrott L., Sass S. Application of field geophysics in geomorphology: advances and limitations exemplified by case studies. Geomorphology. 2008; 93: 55–73.
  • Schunke E. Neue Beobachtungen zur Periglacialmorphologie Islands (Ein Forschungsbericht). (New observations to periglacial morphology of Iceland [research report].). Die Erde, Zeitschrift der Gesellschaft für Erdkunde zu Berlin. 1975; 106: 47–56.
  • Sekyra J. The development of cryopedology in Czechoslovakia. Biuletyn Peryglacjalny. 1956; 4: 351–369.
  • Smith J. Some moving soils in Spitsbergen. Journal of Soil Science. 1956; 7: 11–21.
  • Stenzel P., Szymanko J. Metody geofizyczne w badaniach hydrogeologicznych i geologiczno-inzynierskich. (Geophysical methods in hydrogeological and engineering-geological studies.). 1973; Warsaw: Geological Publishers.
  • Szymański W., Skiba S., Wojtuń B. Distribution, genesis, and properties of Arctic soils: a case study from the Fuglebekken catchment, Spitsbergen. Polish Polar Research. 2013; 34: 289–304.
  • Tedrow J.C.F. Morphological evidence of frost action in Arctic soils. Biuletyn Peryglacjalny. 1962; 11: 343–352.
  • Tedrow J.C.F. Soils of the polar landscapes. 1977; New Brunswick, NJ: Rutgers University Press.
  • Telford W.M., Geldart L.P., Sheriff R.E. Applied geophysics. 1990; 2nd edn, Cambridge: Cambridge University Press.
  • Troll C. Structure soils, solifluction, and frost climates of the Earth. Translation 43. 1958; Wilmette, IL: US Army Snow, Ice and Permafrost Research Establishment, Corps of Engineers.
  • Van Dam R.L. Landform characterization using geophysics—recent advances, applications, and emerging tools. Geomorphology. 2012; 137: 57–73.
  • van Everdingen R.O. Multi-language glossary of permafrost and related ground-ice terms. 2005; Boulder, CO: National Snow and Ice Data Centre/World Data Center for Glaciology.
  • Walker D.A., Epstein H.E., Gould W.A., Kelley A.M., Kade A.N., Knudson J.A., Krantz W.B., Michaelson G., Peterson R.A., Ping C.-L., Raynolds M.K., Romanovsky V.E., Shur Y. Frost-boil ecosystems: complex interactions between landforms, soils, vegetation and climate. Permafrost and Periglacial Processes. 2004; 15: 171–188.
  • Washburn A. L. Classification of patterned ground and review of suggestion origins. Geological Society of America Bulletin. 1956; 67: 823–865.
  • Washburn A.L. Patterned ground in the Mesters VIG District, northeast Greenland. Biuletyn Peryglacjalny. 1969; 18: 259–330.
  • Washburn A.L. An approach to a genetic classification of patterned ground. Acta Geographica Lodziensia. 1970; 24: 437–446.
  • Washburn A.L. Geocryology. A survey of periglacial processes and environments. 1979; London: Edward Arnold.
  • Watanabe T., Matsuoka N., Christiansen H.H. Mudboil and ice-wedge dynamics investigated by electrical resistivity tomography, ground temperatures and surface movements in Svalbard. Geografiska Annaler A. 2012; 94: 445–457.
  • Williams R.B.G. Fossil patterned ground in eastern England. Biuletyn Peryglacjalny. 1964; 14: 337–349.

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