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dc.contributor.authorAhmat, Filbert Leone
dc.date.accessioned2015-09-16T13:33:16Z
dc.date.available2015-09-16T13:33:16Z
dc.date.issued2015
dc.identifier.urihttp://ir-library.ku.ac.ke/handle/123456789/13557
dc.descriptionA Thesis Submitted in Partial Fulfilment of the Requirements for the Award of a Doctorate of Philosophy Degree in Agronomy in the School of Agriculture and Enterprise Development, Kenyatta University. May 2015, S 633.5 .K4A35en_US
dc.description.abstractPhosphorus deficiency and aluminium phytotoxicity are major factors limiting crop production in acid soils. Use of mineral fertilizers, especially by small scale farmers, to alleviate deficiencies of nutrients, such as P, is mainly hindered by their high costs and frequent unavailability. This has made the low input approach using locally available resources such as Tithonia diversifolia and Minjingu Rock Phosphate (MPR) gain a substantial research attention. However, less is known on the response of maize to integrated application of Tithonia and MPR. Therefore, four experiments were conducted to generate this information. Experiment one aimed to examine the relationship between mineral N and available P of surface soils and Tithonia biomass quality (N and P); whereas experiment two was to determine the effect of Tithonia and MPR on soil nutrients, pH and exchangeable AI. The third and forth experiments investigated the influence of the acid synthesized and secreted into the rhizosphere by beans on MPR solubilization and the agronomic responses of maize to Tithonia and MPR application under maize-bean intercrop. In experiment one soil and leafy samples were collected from five areas and analysed for Nand P. The second experiment was an incubation experiment with five treatments while the third experiment was a greenhouse pot experiment with two factors consisting of sole maize and maize-bean intercrop as main factor treatments; and use of different fertilizing input sources plus one combination as sub factor treatments. The fourth was a field trial conducted for two consecutive planting seasons at Kavutiri in Embu County and Muguga in Kiambu County. The experiment was laid in a split plot organized in a Completely Randomized Block Design with two factors: sole maize and maize bean intercrop as the main factor treatments; and sub factor treatments consisting of: Control; T alone (5t1ha dry weight); MPR alone (60 Kg P/ha); TSP alone (60 Kg P/ha); T (5t/ha) combined with MPR (50 Kg P/ha); and T (5t/ha) combined with TSP (50 Kg P/ha). Analysis of Variance (ANOVA) was done using the General Linear Model (GLM) procedure of the Statistical Analyses Software (SAS), version 9.3. Results showed that the concentration levels of mineral Nand available P of the top soils weakly correlated (- .22 ::;r ::;+ .62) with their respective levels in the biomass while in the biomass, N concentration, however, increased with the rising concentration of P (r = +. 95). Integrated application of Tithonia biomass with MPR not only resulted in significant rise, above the control, of available soil N (30.2%), P (182.3%), K (27.6%) and Ca (70.8%) but also in a significant decrease of the concentration of soluble AI; MPR solubilization was further enhanced by 68.7% for MPR applied alone and 223.6% for MPR combined with the biomass under maize-bean intercrop as compared to sole maize. Effects of the applied Tithonia biomass and MPR on agronomic parameters of maize differed under the two cropping systems. In conclusion, this study reveals that integrated use of the low fertilizing inputs (Tithonia biomass and MPR) under maize-bean intercrop improves maize yield on a P-deficient acid soil that is highly saturated with soluble Al more than mineral P fertilizers. Dissemination to farmers of this newly established low input technology by appropriate institutions, such as the ministry of Agriculture, is highly recommended.en_US
dc.language.isoenen_US
dc.publisherKenyatta Universityen_US
dc.titleUse oMinjingu Phosphate Rock with Tithonia Diversifolia in Maize-Bean Intercrop For Improved Maize Yields in Two Soil Types in Kenyaen_US
dc.typeThesisen_US


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