Abstract
Most soils in the tropics are acidic, highly weathered, less fertile, and fix phosphorus. Organic amendments such as compost
and biochar can be used to increase the nutrients availability in these soils. Thus, the objectives of this study were to (i)
improve soil phosphorus availability using biochar and compost produced using chicken litter and pineapple leaves as
feedstock, respectively and (ii) determine if the use of biochar, and compost could improve nitrogen, phosphorus, potassium,
calcium, and magnesium uptake and dry matter production of Zea mays L. cultivated in tropical acid soil. An incubation
study was carried out for 90 days. The treatments evaluated were soil only (T0), 300 g soil + 8.24 g ERP (T1), 300 g soil +
8.24 g ERP + 28.8 g biochar (T2), 300 g soil + 8.24 g ERP + 14.4 g compost (T3), and 300 g soil + 8.24 g ERP + 14.4 g
compost + 28.8 g biochar (T4). Pot experiment was carried out using maize hybrid F1 as test crop. The treatments evaluated
were 7 kg soil only (unfertilized condition) (T0), 7 kg soil + recommended NPK (5 g urea + 8.24 g ERP + 2.58 g MOP (T1),
7 kg soil + 5 g Urea + 8.24 g ERP + 2.58 g MOP + 769 g biochar (T2), 7 kg soil + 5 g Urea + 8.24 g ERP + 2.58 g MOP +
385 g compost (T3), and 7 kg soil + 5 g Urea + 8.24 g ERP + 2.58 g MOP + 385 g compost + 769 g biochar (T4). The
organic amendments increased availability of nitrogen, potassium, calcium, and magnesium in the soil. They also increased
soil pH to near neutral such that the soil’s exchangeable aluminium and extractable iron which fix soil phosphorus were
significantly reduced. As a result, phosphorus availability (total phosphorus, available phosphorus, inorganic phosphorus
fractions, and organic phosphorus) in the soil was increased. The organic amendments also improved Zea mays L. nutrient
uptake and dry matter production. The findings of this study suggest that the organic amendments can be used to ameliorate
phosphorus fixation of acid soils to improve crop production on these soils.