Using magnetite tracer to evaluate a novel plot experimental design for the assessment of soil and water conservation impacts of stone bunds in Ethiopia
Views
0% 0
Downloads
0 0%
Open access
Citation
Stefan Strohmeier, Jakob Rieder, Martin Kaltenleithner, Nigus Demelash, Gema Guzman, Feras M. Ziadat, Andreas Klik. (16/4/2015). Using magnetite tracer to evaluate a novel plot experimental design for the assessment of soil and water conservation impacts of stone bunds in Ethiopia. Vienna, Austria.
Abstract
In the Ethiopian highlands the removal of native forests and rangelands for crop cultivation dramatically increased
the vulnerability of the soils for rainfall driven soil erosion. Overlaid with intensive rainfalls occurring during
the rainy season the steep and unprotected areas of the highlands became seriously endangered regarding land
degradation. In the Gumara-Maksegnit watershed near Gonder (Amhara region) a plot study was conducted to
assess soil erosion processes on agricultural fields affected by stone bund soil and water conservation (SWC)
interventions. Novel plot experimental design was set up to monitor surface runoff and sediment yield on treated
and untreated hill slopes during rainy season 2013. The experiment indicated about sixty percent less surface runoff
and about forty percent less sediment yield from the SWC plot compared to untreated plot conditions. However,
the efficiency of the protection measure strongly related to the time elapsed since the last stone bund maintenance.
To evaluate potential plot experimental effects on the observed erosion pattern a confined magnetite tracer segment
was incorporated within the SWC plot. After a few rainfall events, approximately one meter grid soil sampling
was performed to gain a deeper insight into the spatial distribution of the translocate tracer. Spatial interpolation
techniques conclude that the tracer and consequently the eroded sediments deposited in front of the SWC structure.
The derived tracer map also indicates channelized sediment movement along the graded stone bund. The magnetite
tracer study allowed various back draws on the spatial soil erosion pattern and the plot experimental interferences
at the intersected hill slope level - providing suggestions for further tracer experimental campaigns for advanced
SWC evaluation in Ethiopia.
Permanent link
DOI
AGROVOC Keyword(s)
Author(s) ORCID(s)
Strohmeier, Stefan https://orcid.org/0000-0003-0723-5964