Properties of debris flow deposits and source materials compared: implications for debris flow characterization |
| |
| Authors: | ERIC BARDOU PASCAL BOIVIN† HANS-RUDOLF PFEIFER‡ |
| |
| Institution: | Institute of Geomatics &Risk Analysis, IGAR, University of Lausanne, 1015 Lausanne, Switzerland; Laboratory of Soil Science, LPE-ISTE-ENAC, Swiss Federal Institute of Technology, 1015 Lausanne, Switzerland (E-mail: ); Centre d'Analyse Minérale, Universitéde Lausanne, BFSH 2, CH-1015 Lausanne, Switzerland |
| |
| Abstract: | In the Alps, debris flow deposits generally contain <5% clay‐size particles, and the role of the surface‐charged <2 μm particles is often neglected, although these particles may have a significant impact on the rheological properties of the interstitial fluid. The objective of this study was to compare debris flow deposits and parent materials from two neighbouring catchments of the Swiss Alps, with special emphasis on the colloidal constituents. The catchments are small in area (4 km2), 2·5 km long, similar in morphology, but different in geology. The average slopes are 35–40%. The catchments were monitored for debris flow events and mapped for surface aspect and erosion activity. Debris flow deposits and parent materials were sampled, the clay and silt fractions extracted and the bulk density, <2 mm fraction bulk density, particle size distribution, chemical composition, cation exchange capacity (CEC) and mineralogy analysed. The results show that the deposits are similar to the parent screes in terms of chemical composition, but differ in terms of: (i) particle size distribution; and (ii) mineralogy, reactivity and density of the <2 mm fraction. In this fraction, compared with the parent materials the deposits show dense materials enriched in coarse monocrystalline particles, of which the smallest and more reactive particles were leached. The results suggest that deposit samples should not be considered as representative of source or flow materials, particularly with respect to their physical properties. |
| |
| Keywords: | clay minerals colloidal constituents debris flow debris flow material particle size |
|
|
