Low Cost Technologies for Enhancing N and P Availability and Maize (Zea mays L.) Performance on Acid Soils
Onwonga, R. N.
Friedel, J. K.
Mwonga, S. M.
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Soil degradation especially soil acidity and low fertility are the major constraints hampering maize production in Molo district, Kenya. The challenge therefore is to develop sustainable soil management strategies for enhancing maize production and concomitantly food security. A three-year field experiment were conducted on smallholder farms (SHF) of Molo to test the effectiveness of applying low cost technologies (LCT): lime, farm yard manure (FYM), minjingu rock phosphate (MRP), biological nitrogen fixation (BNF) and cowpea (CP) residue and crotalaria (CR) green manure, in enhancing nutrient availability and maize performance on acid soils. The performance of maize in three cropping systems; (a) pure maize (M) in rotation with CP with or without application of LCT (M – CP, M-CP), (b) maize intercropped with CP in rotation with CR with (lime, MRP) application of LCT (M/CP CR and M/CP -CR) and (c) maize in rotation with fallow (F) with or (lime, MRP)- (lime, MRP, FYM) without application of diamonium phosphate fertilizer (DAP) (M -F, M-F) as control, was evaluated during DAP the long rain seasons (LRS) of 2004, 2005 and 2006. CP and CR were planted in the short rains season (SRS) of 2004 and 2006. The soil pH was significantly increased two months after liming and had appreciably increased by the end of the trial period to levels conducive to maize growth in the M/CP -CR and M/CP - (lime, MRP) (lime, MRP, FYM) CR and M – CP cropping systems. The cropping systems M/CP -CR and M/CP -CR (lime, MRP) (lime, MRP) (lime, MRP, FYM) showed superior performance in N fixation and soil available N and P due to the application of LCT. Crotalaria 2 fixed significantly higher amounts of N (127-158 kg ha• ) than cowpea (37-56 ha• in both years. Similarly, soil 2 1 1 available N and P increased progressively with the planting seasons, except for the control, with P showing minor fluctuations. Maize grain yields were correspondingly higher under the imposed LCT and was notably higher in the M/CP -CR and M/CP -CR cropping systems. The utilization of the short rain season (lime, MRP, FYM) (lime, MRP) fallow by planting CR and CP and incorporating its residue and green manure, respectively during land preparation for the following maize/cowpea intercrop alongside application of LCT is thus a feasible strategy to manage soil acidity and boost maize performance on the SHF of Molo District, Kenya.