This practical guide demonstrates the successful application of geophysical techniques in periglacial environments through international field studies.
This practical guide demonstrates the successful application of geophysical techniques in periglacial environments through international field studies.
Part I. Introduction; Part II. Introductory Chapters for the Main Geophysical Methods Applied: 1. Electric methods Christof Kneisel and Christian Hauck; 2. Electromagnetic methods Andreas Hördt and Christian Hauck; 3. Refraction seismics Lothar Schrott and Thomas Hoffmann; 4. Ground-penetrating radar Ivar Berthling and Kjetil Melvold; Part III. Case Studies: 5. Typology of vertical electrical soundings for permafrost/ground ice investigation in the forefields of small alpine glaciers Reynald Delaloye and Christophe Lambiel; 6. ERT imaging for frozen ground detection Mamoru Ishikawa; 7. Electrical resistivity values of frozen soil from VES and TEM field observations and laboratory experiments Koichiro Harada; 8. Results of geophysical surveys on Kasprowy Wierch, the Tatra Mountains Wojciech Dobinski, Bogdon Zogala, Krystian Wzietek and Leszek Litwin; 9. Reassessment of DC resistivity in rock glaciers by comparing with P-wave velocity: a case study in the Swiss Alps Atsushi Ikeda; 10. Quantifying the ice content in low-altitude scree slopes using geophysical methods Christian Hauck and Christof Kneisel; 11. The use of GPR in determining talus thickness and talus structure Oliver Sass; 12. GPR soundings of rock glaciers on Svalbard Ivar Berthling, Bernd Etzelmüller, Herman Farbrot, Ketil Isaksen, Morgan Wåle and Rune Ødegård; 13. Arctic glaciers and ground-penetrating radar case-study: Stagnation Glacier, Bylot Island, Canada Tristram D. L. Irvine-Fynn and Brian J. Moorman; 14. Mapping of subglacial topography using GPR for determining subglacial hydraulic conditions Kjetil Melvold and Thomas V. Schuler; 15. Snow measurements using GPR: example from Amundsenisen, Svalbard Kjetil Melvold; 16. Mapping Frazil ice conditions in rivers using ground penetrating radar Ivar Berthling, Halfdan Benjaminsen and Ånund Kvambekk; Part IV. Tables of Typical Values of Geophysical Parameters for Periglacial Environments; Index.
Part I. Introduction; Part II. Introductory Chapters for the Main Geophysical Methods Applied: 1. Electric methods Christof Kneisel and Christian Hauck; 2. Electromagnetic methods Andreas Hördt and Christian Hauck; 3. Refraction seismics Lothar Schrott and Thomas Hoffmann; 4. Ground-penetrating radar Ivar Berthling and Kjetil Melvold; Part III. Case Studies: 5. Typology of vertical electrical soundings for permafrost/ground ice investigation in the forefields of small alpine glaciers Reynald Delaloye and Christophe Lambiel; 6. ERT imaging for frozen ground detection Mamoru Ishikawa; 7. Electrical resistivity values of frozen soil from VES and TEM field observations and laboratory experiments Koichiro Harada; 8. Results of geophysical surveys on Kasprowy Wierch, the Tatra Mountains Wojciech Dobinski, Bogdon Zogala, Krystian Wzietek and Leszek Litwin; 9. Reassessment of DC resistivity in rock glaciers by comparing with P-wave velocity: a case study in the Swiss Alps Atsushi Ikeda; 10. Quantifying the ice content in low-altitude scree slopes using geophysical methods Christian Hauck and Christof Kneisel; 11. The use of GPR in determining talus thickness and talus structure Oliver Sass; 12. GPR soundings of rock glaciers on Svalbard Ivar Berthling, Bernd Etzelmüller, Herman Farbrot, Ketil Isaksen, Morgan Wåle and Rune Ødegård; 13. Arctic glaciers and ground-penetrating radar case-study: Stagnation Glacier, Bylot Island, Canada Tristram D. L. Irvine-Fynn and Brian J. Moorman; 14. Mapping of subglacial topography using GPR for determining subglacial hydraulic conditions Kjetil Melvold and Thomas V. Schuler; 15. Snow measurements using GPR: example from Amundsenisen, Svalbard Kjetil Melvold; 16. Mapping Frazil ice conditions in rivers using ground penetrating radar Ivar Berthling, Halfdan Benjaminsen and Ånund Kvambekk; Part IV. Tables of Typical Values of Geophysical Parameters for Periglacial Environments; Index.
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