Description: Das Projekt "Instabilities in alpine Permafrost: strength and stiffness in a warming thermal regime" wird vom Umweltbundesamt gefördert und von Eidgenössische Technische Hochschule (ETH) Zürich, Institut für Geotechnik durchgeführt. Global climate change in cryogenic regions has dominated the research agenda recently, as investigators seek ways of identifying the hazards to infrastructure in cold regions to establish distinct uncertainties through a risk based consideration of sensitivity and consequences and thereby mitigate the risk of permafrost degradation. The latest IPCC report states that temperature increased at the top of the permafrost layer in the Arctic by up to 3 C since the 1980s. The permafrost base has been thawing at rates of up to 0.04 m/yr, permafrost degradation is causing changes in land surface characteristics and drainage systems and snow cover has decreased in most regions. This has been greatest at lower elevations, e.g. in Switzerland. Melting massive ice or degrading permafrost is becoming increasingly susceptible to causing initiation of slope instabilities and debris flows, having caused the 1997 Val Pola debris flows in the Italian Alps. Recent instabilities in the Vallée du Du Durnand in Valais and the Bérard Rock Glacier in France, both in 2006, emphasise the growing concern. Clear risks were also identified in Turtmanntal, Val d'Anniviers and Mattertal, where some rock glacier features indicated formation of crevasses and depressions at critical positions in the landform and increased risk of failure through the body of the mountain permafrost. Knowledge of the evolving thermal state and internal structure, as well as the response of permafrost soils to a gradual warming cycle, is necessary. This project focuses on the variations of geotechnical response of Alpine permafrost with time and temperature. The time effects are important, since a rock glacier will flow or creep downhill. Landforms have changed in the smaller rock glaciers in the West Alps, where these are particularly sensitive to warming scenarios. Clearly this may lead to instability. The specific goals are: o to investigate artificially frozen soils in the laboratory to understand the relative influences of stresses, soil-ice content, particle size and shape, strain rate and temperature on the strength and stiffness, particularly within the thawing zone, o to obtain equivalent strength and stiffness data from stored (and future) cored samples of Alpine Permafrost and to compare with those from artificial frozen soil, o to establish relationships between key parameters for both artificial and real mountain permafrost, o to test an existing constitutive law to represent the thermo-hydro-mechanical behaviour of Alpine permafrost, o to obtain relevant parameters for future input to the constitutive model and subsequent numerical analysis of the test data.
Types:
SupportProgram
Origin: /Bund/UBA/UFORDAT
Tags: Schlichtemittel ? Zürich ? Tieftemperaturtechnik ? Blei ? Brunnen ? Frankreich ? Schweiz ? Bodenstruktur ? Gebäude ? Gletscher ? Stress ? Szenario ? Temperatur ? Topographie ? Wirkung ? Partikelanzahl ? Globale Erwärmung ? Arktis ? Mure ? Globale Veränderung ? Berg ? Boden ? Hochgebirge ? Stichprobe ? Schmelzen ? Wirkung ? Bodenprobe ? Festgestein ? Schuttstrom ? Alpen ? Geotechnik ? Rechtsverfahren ? Gesetz ? Daten ? Dränung ? Geländerelief ? Schnee ? Bildung ? Fahrradfahren ? Entwässerung ? Forschung ? Forschungseinrichtung ? Infrastruktur ? Kenngröße ? Klimawandel ? Risiko ? Speicherung ? Gestein ? Gebiet ? Gefahr ? Gebirge ? Hang ? Änderung ? Staat ? Abbau ? Abdeckung ? Permafrost ? UEBEREMPFINDLICHKEIT ? SPEZIFISCH ? STELLE ? Schmelzbad ? THERMISCH ? Temperaturerhöhung ? AUFTAUEND ? KAELTE ? LAENDER ? UNTERSUCHUNG ? LAND ? VERANTWORTUNG ? ABNAHME ? VERGLEICHEN ? NEU ? Ortsbestimmung ? PROBE ? VERHALTEN ? VERTIEFUNG ? Vermehrung ? WICHTIG ? alpine permafrost ? extension stress paths ? triaxial element testing ? OBERFLAECHE ? PROJEKT ? BESTEHEND ? Basen [chemisch] ? Bemessung ? DACH ? SCHICHT ? FEHLER ?
License: cc-by-nc-nd/4.0
Language: Deutsch
Time ranges: 2009-06-01 - 2012-05-31
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