Rist A. Hydrothermal processes within the active layer above alpine permafrost in steep scree slopes and their influence on slope stability: Diss. - Zürich: Geographisches Institut der Universität Zürich, 2008. - 168 p.: ill. - (Schriftenreihe physische Geographie, Glaziologie und Geomorphodynamik; Vol.57). - Ref.: p.155-167. - ISBN 3-85543-253-9  Место хранения:   010 | Институт географии СО РАН | Иркутск | Библиотека

Оглавление / Contents

Abstract ........................................................ i Zusammenfassung ............................................... iii Acknowledgements ................................................ v Contents ...................................................... vii List of figures ................................................ ix List of tables ............................................... xvii List of abbreviations ......................................... xix List of symbols ................................................ xx Latin symbols ............................................... xx Greek symbols ............................................ xxiii 1 Introduction ................................................. 1 1.1 State of research ....................................... 1 1.1.1 Hydrothermal regime of the active layer in debris slopes .................................... 1 1.1.2 Slope stability of the active layer in debris slopes ........................................... 6 1.2 Motivation ............................................. 16 1.3 Hypothesis ............................................. 17 1.4 Objectives ............................................. 19 2 Field investigations ........................................ 21 2.1 Study site ............................................. 21 2.2 Field methods .......................................... 23 2.2.1 Field research infrastructure ................... 23 2.2.2 Field measuring array ........................... 23 2.2.3 Measurements in detail .......................... 26 2.3 Field results and interpretation ....................... 28 2.3.1 Meteorological conditions ....................... 28 2.3.2 Hydrological ground parameters .................. 29 2.3.3 Thermal ground parameters ....................... 35 2.3.4 Geotechnical parameters ......................... 45 2.4 Discussion of field investigations ..................... 47 2.4.1 Water balance ................................... 47 2.4.2 Heat balance .................................... 50 2.4.3 Relation between water and heat balance ......... 51 2.4.4 Suitability of measuring equipment and reliability of data ............................. 52 2.4.5 Relevance of results in context of climate change .......................................... 52 2.5 Summary of field investigations ...................... 53 3 Laboratory experiments ...................................... 54 3.1 Analysis of granular materials ......................... 54 3.2 Development of inclinable shear apparatus .............. 56 3.2.1 Requirements .................................... 56 3.2.2 Solution ........................................ 56 3.2.3 Construction .................................... 57 3.3 Systematic 4-factorial screening shear test series ..... 58 3.3.1 Methods of systematic shear test series ......... 58 3.3.2 Results and analysis of systematic shear test series .......................................... 85 3.3.3 Discussion of systematic shear test series ..... 106 3.3.4 Summary of systematic shear test series ........ 109 3.4 Physical simulation of thaw-induced failure of the active layer .......................................... 110 3.4.1 Methods for simulation of thaw-induced active layer failure .................................. 110 3.4.2 Results of simulation of thaw-induced active layer failure .................................. 120 3.4.3 Discussion of simulation of thaw-induced active layer failure ........................... 139 3.4.4 Summary of simulation of thaw-induced active layer failure .................................. 147 3.5 Comparison of systematic shear tests and failure simulation ............................................ 148 4 Integral discussion of field and laboratory investigations ............................................. 149 4.1 Implications of the laboratory simulation for the field study site ...................................... 149 4.2 Implications of the shear test series for the field in general ............................................ 150 5 Conclusions ................................................ 153 6 Outlook .................................................... 154 References .................................................... 155 Curriculum Vitae .............................................. 168