Digital soil mapping and gis-based land evaluation for rice suitability in Kilombero Valley, Tanzania
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Date
2015
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Publisher
The Ohio State University
Abstract
A GIS-based multi-criteria land evaluation was performed in Kilombero Valley, Tanzania
in order to avail decision makers and farmers with evidence based decision support tool
for improved and sustainable rice production in this important region for agricultural
investment. Five most important criteria for rice production in the area were identified
through literature search and discussion with local agronomists and farmers. The
identified criteria were 1) soil properties, 2) surface water resources, 3) accessibility, 4)
distance to markets, and 5) topography. Spatial information for these criteria for the
study area was generated.
To generate spatial soil information, field survey and lab analysis was conducted using
base map generated from a legacy soil map and 30 m Digital Elevation Model (DEM).
OSACA, a k-means based clustering application was used to perform distance metric
numerical classification of soil profiles. The profiles were classified into 13 clusters. The
clusters were demonstrated to be different from each other through comparison of
modeled continuous vertical variability of selected attributes of modal soil cluster
centroids by using equal area spline functions. Two decision tree based algorithms, J48
and Random Forest (RF) were applied to construct models to spatially predict the soil
clusters using environmental correlates derived from 30 m DEM, 5 m RapidEye satellite
image and legacy soil map using the scorpan digital soil mapping framework. The RF
predicted soil cluster map was picked for land evaluation because the algorithm
demonstrated superiority by having comparatively higher predictive rate and pixel
contiguity. Topsoil attributes values of predicted soil clusters were used to produce soil
physical and chemical properties maps.
On-screen digitization, reclassifications and overlays in ArcMap and Whitebox GIS
software were used to create spatial layers of the other identified criteria. Rivers were
digitized from the satellite image and topographic map of the study area to create
surface water resources map. Roads were digitized to create accessibility map and
market centers’ coordinate points were digitized to create distance to market map.
Slope gradient derivative from DEM was used to create topography map.
Analytical hierarchy process (AHP) method was used to score the criteria by the local
extension staff and lead farmers on a scale of 0.0 – 1.0. Surface water resource scored
the highest weight (0.462) followed by soil chemical properties (0.234). Other criteria
and their weight in paranthesis are soil physical properties (0.19), topography (0.052),
accessibility (0.036), and distance to market (0.025).
The multi-criteria land evaluation results showed that about 8% of the study area was
classified as having low suitability for rice production while only 2% was highly suitable.
The majority of the area (about 89%) was classified as having medium suitability for rice
production. Since the suitability decision was dominated by the surface water resource criterion, the rice suitability in the study area can be greatly improved by improving the
water resources management.
Description
PhD. Dissertation 2015
Keywords
Digital soil mapping, Gis-based land evaluation, Rice suitability, Kilombero Valley