dc.description.abstract |
Soil acidity is one of the major yield-limiting factor for crop production worldwide, particularly
on highly weathered and leached tropical soils. Different reports have indicated that there is
significant soil acidity coverage in Ethiopia. Particularly, in the western part of the country, soil
acidity is a well-known problem limiting crop production and productivity. As part of the
solution to such problem in soils, combined application of lime and VC on maize has not been
investigated in the area, in which maize was one of the potential cereal crops in the area. Field
experiment was conducted at Lalo Asabi district in western Wollega during 2019/20 cropping
season to evaluate the responses of soil and maize to the combined application of lime and
vermicompost (VC). The experimental treatments were five rates of lime (CaCO3) (0, 25, 50, 75,
and 100% of lime requirement (LR)) and three levels of vermicompost (0, 2.5 and 5 t ha-1). The
treatments were arranged in factorial combinations in randomized complete block design with
three replications. One composite surface soil samples from a depth of (0-15 cm) were collected
from the experimental field before commencement of the experiment. A total of fifteen
composited soil samples were also collected from each plot and then composited by replication
to obtain one representative sample per treatments for determination of selected soil
physicochemical properties. Maize yield and yield components were measured following
standard procedures. The soil analysis results revealed that soil pH increased from 5.1(strongly
acidic) to 5.8 (moderately acidic) while exchangeable acidity decreased from 2.44 to 0.31 cmolc
kg-1 under combined application of lime at 75% LR+2.5 t VC ha-1, which resulted in
improvement of others selected soil physicochemical properties. Likewise, the main effects of
lime and VC showed a significant effect (p<0.05) on the number of days to 50% tasseling and
silking, ear height, number of cobs per plant, number of grains per cob, thousand grain weight,
above ground biomass and harvest index of maize. However, days to 90% physiological maturity,
plant height, cob length and grain yield of maize were significantly affected (p<0.05) by lime
and VC interactions. Maximum grain yield (7.99 t ha-1) was obtained from the combined
application of lime at 100% LR+5 t VC ha-1 followed by combined application of lime at 75% LR
+2.5 t VC ha-1 (7.73 t ha-1) even though both being statistically at par whereas the lowest grain
yield (2.97 t ha-1) was obtained from control plots. The results of economic analysis indicated
that the combination of lime at 75% LR+2.5 t VC ha-1 showed marginal rate of return 2322.74%
with the highest net benefit of 49980 Ethiopian Birr compared to other treatments. This study
indicates combined use of lime and VC could ameliorate the adverse effect of soil acidity, and
application of 75% LR+2.5 t VC ha-1 enhances grain yield and produces the highest net benefit
of maize grown on acidic soil of Lalo Assabi district. |
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