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DOI: 10.4236/as.2012.31012
Author(s)
Emmanuel Ibukunoluwa Moyin-Jesu
Two field experiments were carried out at Akure (7oN, 5o101E) in the rainforest zone of Nigeria in 2006 and 2007 to determine the effectiveness of neem leaf, woodash and modified neem leaf extracts as fertilizer sources in improving soil fertility, growth and yield of maize (Zea mays L) and watermelon (Citrulus lanatus) sole and intercrop. There were six treatments namely, poultry manure, neem leaf extract (sole), woodash extract, modified neem leaf (neem leaf + woodash), NPK 15-15-15 and a control (no fertilizer nor extract), replicated three times and arranged in a randomized complete block design (RCB). The extracts (neem leaf, wood ash and modified neem leaf) were applied at 1200 litres per hectare each, NPK 15-15-15 at 300 kg/ha and poultry was applied at 6t/ha. The results showed that there were significant increases (P < 0.05) in the maize growth and yield parameters (leaf area, plant height stem girth) grain yield, cob weight and % shelling percentage) as well as in watermelon (vine length, stem girth, number of branches, fruits weight, population and fruit diameter) under sole and intercrop compared to the control treatment. Generally, the growth and yield parameters values were slightly higher under the sole crop than the intercrop. The modified neem leaf extract increased the plant height and stem girth of maize (sole) by 11.78% and 27.43% respectively compared to that of neem leaf extract and the same trend of increase was experienced in maize (intercrop) where modified neem leaf extract increased plant height and stem girth by 11.5% and 24.48% compared to neem leaf. Poultry manure also increased the maize leaf area (sole and intercrop) compared to the extracts and NPK 15-15-15. For instance, under maize (sole), the poultry manure increased the leaf area by 8.74% compared to NPK 15-15-15. For yield parameters of maize and watermelon (sole and intercrop), modified neem leaf increased most all values of yield parameters compared to neem leaf and woodash extract. For example, modified neem leaf increased the values of sole maize grain yield, cob weight by 65.63% and 57.58% respectively compared to neem leaf extract. The LER value for maize and watermelon (intercrop and sole) was 2.61 while relative yield is 1.575 or 157.5%. For soil fertility improvement after harvesting, modified neem leaf extract and poultry manure had the highest values of soil pH (H2O), K, Ca, Mg, Na, O.M, P and N compared to NPK 15-15-15 and neem leaf extract. For instance, modified neem leaf extract increased soil pH (H2O), K, Ca, Mg, Na, O.M, P and N by 12.4%, 32.8%, 25%, 23.7%, 19.32%, 17.24% and 20% respectively compared to neem leaf extract under intercrop plot. The high soil K/Ca, K/Mg and P/Mg ratios in the NPK 15-15-15 fertilizer treatment led to an imbalance in the supply of P, K, Ca and Mg nutrients to maize and watermelon crops. The least values for growth, yield and soil parameters were recorded under the control treatment. In these experiments, modified neem leaf extract (woodash + neem leaf extracts) applied at 1200 litres/ha was the most effective in improving soil fertility, growth and yield of maize and watermelon (sole and intercrop) and could substitute for 6 tons per hectare of poultry manure and 300kg/ha of NPK 15-15-15 fertilizer.
[1] | Banziger, O. (1999) Tropical Agriculturist in grain and fruit crop. CTA, Netherlands, 75-76. |
[2] | Simonne E.H. (1999) Water melon varieties and nutritional importance. Alabama Cooperative Extension System Bulletin, 11, 1-2. |
[3] | Moyin-Jesu, E.I. (2003) Incorporation of agro-industrial biomass and their effects on four successive crops of Amanranthus. Pertanika Journal of Tropical Agricultural Science, 26, 35-40. |
[4] | Moyin-Jesu, E.I. (2007) Evaluation of different organic fertilizers on the soil fertility, leaf chemical composition and growth performance of coffee seedlings. African Journal of Science & Technology, 2, 1-6. |
[5] | Moyin-Jesu, E.I. (2009) Evaluation of sole and amended organic fertilizers on soil fertility and growth of kola seedlings (Cola acuminate). Pertanika Journal of Tropical Agricultural Science, 32, 17-23. |
[6] | Moyin-Jesu, E.I. (2004) Effect of different organic fertilizers on the soil fertility, leaf chemical composition and growth of budded rubber. Pertanika Journal of Tropical Agricultural Science, 24, 91-100. |
[7] | Mallick, F. (2005) Neem; The wonder tree. Bulletin Research Foundation for Science Technology and Natural Resource, 4, 1-3. |
[8] | Moyin-Jesu, E.I. (2010) Comparative evaluation of modified neem leaf, neem leaf and woodash extracts as pest control in maize (Zea mays L). Emirate Journal of Food and Agricultural, 22, 34-44. |
[9] | Soil Survey Staff (1999) Soil Taxonomy. A basis system of soil classification for making and interpreting, soil surveys. USDA Handbook No. 436, Washington DC. |
[10] | Crockford, L. and Nowell, R. (1956) Laboratory manual of physical chemistry. John Wiley and Sons, New York, Expts, 31-32, 58-59. |
[11] | Walkley, A. and Black, I.A. (1934) An examination of degtajaroff method for determining soil organic matter and a proposed modification of the chromic acid filtration. Soil Science, 37, 29-38. doi:10.1097/00010694-193401000-00003 |
[12] | AOAC (1970) Official Analytical Chemists, Arlington, Virginia. |
[13] | Murphy, J. and Riley, J.P. (1962) A modified single solution method for determination of phosphate in natural waters. Analytical Glumi Acta, 27, 31-36. doi:10.1016/S0003-2670(00)88444-5 |
[14] | Jackson, M.L. (1958) Soil Chemical Analysis Englewood Cliffs, Pren-tice Hall Inc., New York. |
[15] | McLean, E.O. (1965) Aluminum P. 927-932. In: Black, M.C.A., Eds., Method of Soil Analysis Parts, Agronomy 9, American Society of Agronomy, Madison Wisconsin, USA. |
[16] | Ogunwale, J.A. and Udo, E.J. (1978) A laboratory manual for soil and plant analysis. Agronomy Department, University of Ibadan, Nigeria, 201-206. |
[17] | Bouycous, J. (1951) Hydrometer method for soil particle size analysis. Agronomy Journal, 54, 464-465. doi:10.2134/agronj1962.00021962005400050028x |
[18] | Gomez, K.A. and Gomez, A.A. (1984) Statistical procedures for Agricultural Research. 2nd Edition, John Willey and Sons, New York. |
[19] | Agboola, A. A. and Corey, R.B. (1973) Soil testing N, P, K for maize in the soil derived from metamorphic and igneous rocks of Western State of Nigeria. Journal of West African Science Association, 17, 93-100. |
[20] | Sobulo, R.A. and Osiname, O.A. (1981) Soils and fertilizer use in Western Nigeria. Research Bulletin No. 11, I.A.R. & T., University of Ife. |
[21] | Moyin-Jesu, E.I. and Atoyosoye, B. (2002) Utilization of Agricultural Wastes for the growth, leaf and soil chemical composition of cocoa seedlings in the nursery. Pertanika Journal of Tropical Agricultural Science, 26, 49-58. |
[22] | Folorunso, O. O., Agboola, A. A. and Adeoye, G.O. (2000) Comparative evaluation of three fertilizer models on phosphorus and potassium uptake in maize. Nigerian Journal of Technical Education, 2, 63-70. |
[23] | Parker, R.N. (1993) The economic of food production and soil conservation. Journal of Modern African Studies, 2, 112-115. |
[24] | Moyin-Jesu, E.I. (2008) Effects of different organic fertilizers on the soil and leaf chemical composition and growth of mango seedlings. Emirates Journal of Food and Agriculture, 20, 31-45. |
[25] | Ayelari, O.P and Tijani-Eniola, H. (2009) Influence of density of groundnut on the performance of cassava and groundnut intercropping system. Applied Tropical Agriculture, 14, 9-15. |
[26] | Osundare, B. (2008) Effect of increasing maize (Zea mays L) population density in a cassava/maize mixture on major nutrients and performance of cassava (Manihot esculenta L). Nigerian Journal of Soil Science, 18, 60-67. |
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