Quantifying sediment storage in a high Alpine valley (Turtmanntal, Switzerland)
Details
Serval ID
serval:BIB_EF1000743716
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
Quantifying sediment storage in a high Alpine valley (Turtmanntal, Switzerland)
Journal
Earth Surface Processes and Landforms
ISSN-L
0197-9337
Publication state
Published
Issued date
2009
Peer-reviewed
Oui
Volume
34
Pages
1726-1742
Language
english
Abstract
The determination of sediment storage is a critical parameter in sediment
budget analyses. But, in many sediment budget studies the quantification
of magnitude and time-scale of sediment storage is still the weakest
part and often relies on crude estimations only, especially in large
drainage basins (>100km2). We present a new approach to storage quantification
in a meso-scale alpine catchment of the Swiss Alps (Turtmann Valley,
110km2).
The quantification of depositional volumes was performed by combining
geophysical surveys and geographic information system (GIS) modelling
techniques. Mean thickness values of each landform type calculated
from these data was used to estimate the sediment volume in the hanging
valleys and the trough slopes. Sediment volume of the remaining subsystems
was determined by modelling an assumed parabolic bedrock surface
using digital elevation model (DEM) data.
A total sediment volume of 781·3×106?1005·7×106m3 is deposited in
the Turtmann Valley. Over 60% of this volume is stored in the 13
hanging valleys. Moraine landforms contain over 60% of the deposits
in the hanging valleys followed by sediment stored on slopes (20%)
and rock glaciers (15%).
For the first time, a detailed quantification of different storage
types was achieved in a catchment of this size. Sediment volumes
have been used to calculate mean denudation rates for the different
processes ranging from 0·1 to 2·6mm/a based on a time span of 10ka.
As the quantification approach includes a number of assumptions and
various sources of error the values given represent the order of
magnitude of sediment storage that has to be expected in a catchment
of this size.
budget analyses. But, in many sediment budget studies the quantification
of magnitude and time-scale of sediment storage is still the weakest
part and often relies on crude estimations only, especially in large
drainage basins (>100km2). We present a new approach to storage quantification
in a meso-scale alpine catchment of the Swiss Alps (Turtmann Valley,
110km2).
The quantification of depositional volumes was performed by combining
geophysical surveys and geographic information system (GIS) modelling
techniques. Mean thickness values of each landform type calculated
from these data was used to estimate the sediment volume in the hanging
valleys and the trough slopes. Sediment volume of the remaining subsystems
was determined by modelling an assumed parabolic bedrock surface
using digital elevation model (DEM) data.
A total sediment volume of 781·3×106?1005·7×106m3 is deposited in
the Turtmann Valley. Over 60% of this volume is stored in the 13
hanging valleys. Moraine landforms contain over 60% of the deposits
in the hanging valleys followed by sediment stored on slopes (20%)
and rock glaciers (15%).
For the first time, a detailed quantification of different storage
types was achieved in a catchment of this size. Sediment volumes
have been used to calculate mean denudation rates for the different
processes ranging from 0·1 to 2·6mm/a based on a time span of 10ka.
As the quantification approach includes a number of assumptions and
various sources of error the values given represent the order of
magnitude of sediment storage that has to be expected in a catchment
of this size.
Keywords
Sediment storage, sediment budget, landform analysis, sediment cascade, GIS modelling
Create date
25/11/2013 16:26
Last modification date
20/08/2019 16:16