dc.description.abstract |
Understanding the effects of land use types and slope positions on soil physicochemical
properties is an essential for sustainable soil management. Therefore, this study was initiated
to assess selected physicochemical properties of the soils under different land uses and slope
positions at Gola Wachu sub-watershed, east Hararghe Zone, Ethiopia. The study area was
divided in to three topographic unit based on slope positions (upper, middle and lower) and
selected soil physicochemical properties were characterized under three adjacent land use
types: cultivated land (CL, grazing land (GL), fallow land (FL). A total of twenty-seven surface
composite soil samples were collected from (0-20 cm) soil depth for the analysis of relevant
soil physicochemical properties, following the standard laboratory procedures. All of the
analyzed soil physicochemical properties were varied significantly (P < 0.05) among the three
land use types, except particle size distribution, C/N and PBS. The textural class of soils under
all the land use types at each slope positions are clay loam. Relatively higher bulk density (BD)
values (1.33 g/cm3
) were recorded in soils of under CL of upper slope compared to the other
land use types whereas the lower BD (1.19 g/cm3
) was observed under GL of lower slope. Total
porosity varied from 49.80% under CL of upper slope to 55.09% under GL of lower slope. The
pH varied (6.92) in grazing land of lower slope to low (5.89) in the soils of cultivated land at
upper slope. The EC in dS/m was high (0.068) in grazing land of lower to low (0.02) in
cultivated land use of upper slope. The SOM ranged from 1.98% in grazing land of lower slope
to 1.15% in cultivated land of upper slope. TN, in % was high (0.18) in GL of lower slope to
low (0.12) in CL of upper slope. C/N ratio was high (7.58) in GL of lower slope and low (5.30
in CL of upper slope. CEC in cmol (+)/kg was high in GL of lower slope (52.06) to low (46.04)
in CL of upper slope. The exchangeable Ca, Mg, K and Na in cmol (+)/kg were high (21.98,
10.14, 1.17 and 0.92) in GL of lower slope to low (18.23, 7.85, 0.56 and 0.65) in CL of upper
slope, respectively. PBS was high (70.72%) in GL of lower slope to low (57.69%) in CL of
upper slope. Extractable micronutrients Fe, Mn, Zn and Cu in mg/kg were high (15.48, 22.17,
0.89 and1.37) in GL of lower slopes to low 13.23, 19.07, 0.47and 1.18) in CL of upper slopes,
respectively. Most of the physicochemical properties showed relative variations in under
different land use types in each slope positions. In general, the results indicate that most of the
soil physicochemical properties were lower in soils of the cultivated land at each topographic
positions signifying that soil fertility management is required in order to make agriculture
sustainable in the Sub-watershed. |
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