Abstract
Low inherent soil fertility in the highly weathered and leached soils largely accounts for low and unsustained crop yields in most African countries. But in particular, the major nutrients, nitrogen (N) and phosphorus (P), are commonly deficient in these soils. This scenario of nutrient depletion is reflected in food deficits and hence the food aid received continuously, specifically in sub-Saharan Africa. Undoubtedly, substantial efforts have been made in the continent to replenish the fertility of degraded soils in attempts to raise crop yields, towards self-sufficiency and export. Such efforts consist of applications of both organic and inorganic resources to improve the nutrient status of soils and enhanced nutrient uptake by crops, provided that soil moisture is adequate. Overall, positive crop responses to these materials have been obtained. Thus in the East African region, maize (staple) yields have been raised in one growing season from below 0.5 t/ha without nutrient inputs, to 3–5 t/ha from various nutrient amendments at the smallhold farm level. However, in spite of the positive crop responses to nutrient inputs, farmers are generally slow to adopt the soil fertility management technologies. In this paper we review the impact of some technologies, focussing the use of nutrient resources of different characteristics (qualities) in relation to improved crop yields, with an overall goal to enhance technology adoption. Thus, inorganic resources or fertilizers often give immediate crop responses, but their use or adoption is rather restricted to large-scale farmers who can afford to buy these materials. Organic resources, which include crop residues, water hyacinth and agroforestry shrubs and trees, are widely distributed, but they are generally of low quality, reflecting the need to apply large quantities to meet crop nutrient demands. Moreover, most organics will add N mainly to soils. On the other hand, phosphate rocks of varying reactivity are found widely in Africa and are refined elsewhere to supply soluble P sources. The recently developed soil fertility management options in East Africa have targeted the efficient use of N and P by crops and the integrated nutrient management approach. Some people have also felt that the repackaging of inputs in small, affordable quantities, such as the PREP-PAC described in this paper, may be an avenue to attract smallhold farmers to use nutrient inputs. Nonetheless, crop responses to nutrient inputs vary widely within and across agroecozones (AEZs), suggesting specificity in recommendations. We highlight this observation in a case study whereby eight soil fertility management options, developed independently, are being tested side-by-side at on-farm level. Farmers will be empowered to identify technologies from their own choices that are agronomically effective and economically friendly. This approach of technology testing and subsequent adoption is recommended for technology development in future.
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References
Allan A.Y., Were A. and Laycock D. 1972. Trials of types of fertilizer and time of nitrogen application. In: Kenya Department of Agriculture, NARS Kitale. Ann. Rpt. Part II: 90–94.
Amoding A., Muzira R., Bekunda M.A. and Woomer P.L. (1999). Bioproductivity and decomposition of water hyacinth in Uganda. African Crop Sci. J. 7(4): 433–439
Anderson G.D. (1970). Fertility studies on sandy loam in semi-arid Tanzania II. Effects of P, K and lime on yields of groundnuts. Exp. Agri. 6: 213–222
Ayaga G.O. 2003. Maize yield trends in Kenya in the last 20 years. A keynote paper. In: Othieno C.O., Odindo A.O. and Auma E.O. (eds.), Proceedings of a Workshop on Declining Maize trends in Trans Nzoia district, Moi University, May 2003, pp. 7–13.
(2004). Managing Nutrient Cycles to sustain Soil Fertility in sub-Saharan Africa. TSBF–CIAT–AfNet. Academy Science Publishers, Nairobi, 608
Birch H.F. (1952). The relationship between phosphorus response and base saturation in acid soils. J. Agric. Sci. 42: 276–285
Buresh R.J., Smithson P.C. and Hellums D.T. (1997). Building soil P capital in sub-Saharan Africa. In: Buresh, R.J., Sanchez, P.A., and Calhoun, F. (eds) Replenishing Soil Fertility in Africa. SSSA Special Publication No. 51, pp 111–149. SSSA, Madison, Wisconsin, USA
Butters B. 1961. Correlation between pot tests and analytical data: data for the major elements in Uganda soils. Proceedings of the East African Senior Chemists Conference 1961.
Cooke G.W. (1967). Control of Soil Fertility. The ELBS and Cosby Lockwood and Sons Ltd., UK
Evans A.C. (1963). Soil Fertility studies in Tanganyika. III. On the Kikungu and Luseni soil types of the Lake and Western regions. E. Afr. Agric. For. J. 28: 231–239
Foster H.L. (1973). Fertilizer recommendations for cereals grown on soils derived from volcanic rocks in Uganda. E. Afr. Agric. For. J. 38: 303–313
(1994). Fertilizer Use Recommendations Vols. 1–22. Kenya Agricultural Research Institute (KARI), Ministry of Agriculture, Nairobi, Kenya
Gachene C.K.K. and Kimaru G. 2003. The crisis in land and agricultural productivity. In: Soil Fertility and Land Productivity: A Guide for Extension Workers in the Eastern African Region, Ch.1, p. 1–7, Technical Handbook no. 30, RELMA.
Gachengo C.N., Palm C.A., Jama B. and Othieno C.O. (1999). Tithonia and senna green manures and inorganic fertilizers as phosphorus sources for maize in western Kenya. Agroforest. Sys. 44: 21–26
Gachengo C.N., Vanlauwe B., Palm C.A. and Cadisch G. 2004. Chemical characterization of a standard set of organic materials. In: Delve R.J. and Probert M.E.(eds) Modeling Nutrient Management in Tropical Cropping Systems. ACIAR Proceedings No. 114, pp. 48–53.
Gathecha T.W. (1970). The maintenance and improvement of soil fertility under arable crops and grass leys in the first and second rotation cycles of a fertilizer at Embu. E. Afr. Agric. For. J. 35: 246–253
Gichuru M.P., Niyungeko J., Adiko A., Koffi N., Kotto-Same K.N., Mobambo A., Moikam B.A., Ritigira and Tano Y. 2003. Soil Fertility Management in Africa: A Regional Perspective, Ch. 5. In: M. P. Gichuru et al. (eds), DANIDA, TSBF-CIAT, CTA, pp. 306.
Gopal B. (1987). Water Hyacinth. Elsvier Science Publishers, Amsterdam, The Netherlands
Greenland D. (1974). Evaluation and development of different types of shifting cultivation. FAO Soils Bull. 24: 5–13
Haides S.Z., Malki K.M.A., Rahman M.N. and Ali M.A. (1984). Water hyacinth compost as a cheap fertilizer. In: Thygarajan, G. (eds) Proceedings of the International Conference on Water hyacinth, pp 751–758. UNEP, Nairobi, Kenya
Ikombo B.M., Esilaba A.O., Kilewe A.M. and Okalebo J.R. 1994. Soils and Water Management Practices in Smallholder Farms in Kiambu District, Kenya, A diagnostic survey. Proceedings of the 4th KARI Annual Scientific Conference, Nairobi, October 1994, pp. 30.
Jama B., Swinkels R.A. and Buresh R.J. (1997). Agronomic and economic evaluation of organic and inorganic sources of phosphorus in Western Kenya. Agron. J. 89: 597–604
Kariuki (Rev.) N. 2003. Non-Governmental Organizations (NGOs) views of declining maize yields in Trans Nzoia district, Kenya. (In: C.O. Othieno, A.O. Odindo and E.O. Auma, Procdeeings of a Workshop on: Declining Maize Trends in Trans Nzoia district, Kenya, pp. 20–22, May 2003, pp. 69).
Keating B.A., Wafula B.M. and Watiki J.M. (1992). Exploring strategies for increased productivity – the case for maize in semi-arid eastern Kenya. In: Probert, M.E. (eds) A Search for Strategies for Sustainable Dry Land Cropping in Semi-arid Eastern Kenya, pp. ACIAR, Australia
Kifuko M.N., Othieno C.O., Okalebo J.R., Kimenye L.N., Ndungu K.W. and Kipkoech A.K. 2003. Agronomic and economic evaluation of residual Minjingu phosphate rock in combination with organic residues on maize yield in Busia, Western Kenya. Proceedings of the 6th Biennial Conference of the African Crop Science Society, Nairobi, Kenya, circulated in a CD ROM in 2005 in Entebbe, Uganda.
Lwayo M.K., Okalebo J.R., Muasya R.M. and Mongare P.O. 2001. A diagnostic survey on the production constraints and utilization of phosphate fortified wheat straw and maize stover compost for increasing cereal production in Uasin Gishu district, Kenya. A report, pp.108.
Marandu W.Y.F., Uriyo A.P. and Mongi H.O. (1973). Residual effects of NPK fertilizer application on the yield of maize and pasture on a ferralsol at Morogoro, Tanzania. E. Afr. Agric. For. J. 40: 400–407
Mkangwe C.Z. (2003). Effects of Minjingu Phosphate rock and triplesuperphosphate as phosphorus sources for maize and groundnut in semi-arid lands of central Tanzania. E. Afr. Agric. For. J. 69(I): 81–88
Mongi H.O., Chowdhury M.A. and Semoka J.M.R. 1974. Lime, nitrogen and phosphorus effects of inorganic N and yield of upland rice in an oxisol. Proceedings of the 5th Eastern African Cereals Research Conference, Lilongwe, Malawi, March 1974. pp.1–18.
Muasya R.M. 1996. Wheat response to fortified wheat straw compost. M. Phil Thesis, Moi University, Eldoret, Kenya.
Mugendi D., Mucheru M., Kungu J., Otor S., Micheni A. and Mugwe J. (2001). Soil fertility improvement strategies for increased food production in the central highlands of Kenya. African Crop Sci. Confer. Proc. 5: 897–904
Muriithi F.M., Thijssen H.J.C., Mugendi D.N., Mwangi J.N., O’Neill M.K. and Nyaata O.Z. 1994. Report of a survey on agroforestry technologies used for fodder production and soil fertility improvement in Meru district, Kenya. National Agroforestry Research Project, RRC, Embu, Kenya.
Mutuo P.K., Mukalama J.P. and Agunda J. 1998. On-farm testing of organic and inorganic phosphorus sources on maize in western Kenya. In: The Biology and Fertility of Tropical Soils. TSBF Report, pp. 22.
Mwaura F.M. 2002. The market testing of PREP-PAC: A new technology in soil fertility management for resource poor smallholder farmers in western Kenya. M. Phil thesis, Moi University, Eldoret, Kenya.
Ndungu K.W., Okalebo J.R., Othieno C.O., Kimenye L.N., Kifuko M.N. and Okeyo M.M. 2003. Effect of residual Minjingu phosphate rock on continuous production of maize in nutrient depleted soils of Western Kenya. Procdeeings of the 6th Biennial Conference of the African Crop Science Society, Nairobi, Kenya, circulated in a CD ROM in 2005 in Entebbe, Uganda.
Nekesa P., Maritim H.K., Okalebo J.R. and Woomer P.L. (1999). Economic analysis of maize-bean production using a soil fertility replenishment product (PREP-PAC) in western Kenya. African Crop Sci. 7(4): 423–432
Ngatunga E.L. and Deckers J. 1964. Preliminary results of a long term experiment comparing the effects of PR and TSP on the yield of maize and sorghum at Mukendele, Mtwara, Tanzania. In: Proceedings of the 6th Ann. Gen. Meeting of the Soil Science Society of East Africa, pp. 26–37, Arusha, Tanzania.
Nyambati R.O. 2000. Soil phosphorus fractions as influenced by phosphorus and nitrogen sources on two sites in western Kenya. M. Phil Thesis, Moi University, Eldoret, Kenya.
Obura P.A., Okalebo J.R. and Woomer P.L. 1999. An integrated soil fertility amelioration product intended for smallhold farmers in western Kenya. In: J. Y. K. Zake, J. K. Tumuhairwe, C. Nkwiine and S. Sessanga (eds.) Proceedings of the 17th Conference of the Soil Science Society of East Africa, Kampala, Uganda.
Obura P.A. (2001). The effect of phosphate rock and rhizobium inoculation on growthyield and nutrient uptake of maize–soybean intercrop in acid soils of western Kenya. Moi University, EldoretKenya
Okalebo J.R. (1987). A study of the effect of phosphorus fertilizers on maize and sorghum production in some East African soils. University of Nairobi, Kenya
Okalebo J.R. and Woomer P.L. 1994. Use of rock and fertilizer phosphorus in eastern and southern Africa. A data summary. Proceedings of the 4th Conference of the Soil Science Society of East Africa, Mbarara, Uganda.
Okalebo J.R., Simpson J.R. and Probert M.E. (1992). Phosphorus status of cropland soils in the semi-arid areas of Machakos and Kitui districts, Kenya. In: Probert, M.E. (eds) A search for strategies for sustainable dry land cropping in semi-arid eastern Kenya, pp. ACIAR, Australia
Okalebo J.R., Palm C.A., Gichuru M., Owuor J.O., Othieno C.O., Munyampundu A., Muasya R.M. and Woomer P.L. (1999). Use of wheat straw, soybean trash and nitrogen fertilizer for maize production in the Kenya highlands. African Crop Sci. J. 7: 423–432
Palm C.A., Gachengo C.N., Delve R.J., Cadisch G. and Giller K.E. (2001). Organic inputs for soil fertility management in tropical agroecosystems: application of an organic resource database. Agri. Ecosys. Environ. 83: 27–42
Pinkerton A. 1958. Bioassays – pot tests. Proceedings of the East African Specialist Committee Meeting on Soil Fertility.
Probert M.E. and Okalebo J.R. (1992). Effects of phosphorus on the growth and development of maize. In: Probert, M.E. (eds) Semi-Arid Eastern Kenya, pp 55–62. ACIAR, Australia
Probert M.E., Okalebo J.R., Simpson J.R. and Jones R.K. (1992). The role of boma manure for improving soil fertility. In: Probert, M.E. (eds) Sustainable Dry land Cropping Symposium, pp 63–70. ACIAR, Australia
Probert M.E., Delve R.J., Kimani S.K. and Dimes J.P. (2004). The APSIM Manure Module: Improvements in predictability and application to Laboratory studies. In: Delve, R.J. and Probert, M.E. (eds) Modeling Nutrient Management in Tropical Cropping Systems, pp 76–84. ACIAR, Australia
Sanchez P.A., Shepherd K.D., Soule M.J., Place F.M., Mokwunye A.U., Buresh R.J., Kwesiga F.R., Izac A.-M.N., Ndiritu C.G. and Woomer P.L. (1997). Soil Fertility Replenishment in Africa: An investment in natural resource capital, pp. 1–46. In: Buresh, R.J., Sanchez, P.A., and Calhoun, F. (eds) Replenishing Soil Fertility in Africa, pp. Madison, Wisconsin, USA
Schumaker G. and Ogolle S. 1967. Sorghum and finger millet fertilizer trials in Serere, Uganda. In: EAAFRO Record of Research Ann. Rpt. 1967.
Semoka J.M.R. and Kalumuna M. 1999. Potentials and constraints of using rock phosphate for crop production in Tanzania. Soil Science Department, SUA. Morogoro, Tanzania. Technical Report to FAO, November 1999 (unpublished, pp. 26).
Shepherd K.D., Ohlson E., Okalebo J.R. and Ndufa J.K. (1996). Potential impact of agroforestry on soil nutrient balances at farm scale in the East African Highlands. Fert. Res. 44: 87–89
Smaling E.M.A., Nandwa S.M. and Janssen B.H. 1997. Soil fertility in Africa is at stake. In: Buresh R.J. (eds), Replenishing Soil Fertility in Africa SSSA Special Publication No. 51, Madison, Wisconsin, USA.
Starks K.J., Schumaker G. and Eberhart S.S. (1971). Soil fertility and damage of Chilo zonallus to grain sorghum. J. Econ. Entomol. 64: 740–743
Stephens D. (1961). A preliminary note summarizing results of field experiments and pot tests relevant to the phosphate status of Uganda soils. EAAFRO, Kenya
Stephens D. (1967). The effects of ammonium sulphate and other fertilizers and inoculation treatments on beans. E. Afr. Agric. For. J. 32: 411–417
Swinkels R.A., Franzel S., Shepherd K.D., Ohlsoon E. and Ndufa J.K. (1997). The economics of short term rotation improved fallows: Evidence from areas of high population density in western Kenya. Agri. Syst. 55: 99–121
SBF (Tropical Soil Biology and Fertility) 1994. Limiting nutrient experiments conducted in Kabras Division, Kakamega District, Ann. Rpt. 1994.
Uriyo A.P., Singh B.R. and Kimambo A.E. 1976. Fertilizer use technology for growing maize on oxisol at Morogoro. I. Phosphorus placement. III: N P effects on soil, NPK in leaves and grain yield of variety Ilonga Composite. Proceedings of the Sixth Eastern African Cereals Research Conference, Morogoro, Tanzania.
Vadlamudi V.R. and Thimm H.U. (1974). Economic analysis of fertilizer trials conducted in Kenya on maize. E. Afr. Agric. For. J. 40: 189–201
Van Kauwenburgh S.J. (1991). Overview of Phosphate Deposits in East and South Africa. Fert. Res. 30: 127–150
Wokabi S.M. (1994). Quantified land evaluation for maize yield gap analysis at three sites in the Eastern slopes of Mt. Kenya. International Institute for Aerospace Survey and Earth Science (ITC), The Netherlands
Woomer P.L. and Muchena F.N. (1996). Recognizing and overcoming soil constraints to crop production in tropical Africa. African Crop Sci. J. 4: 503–518
Woomer P.L., Karanja N.K. and Okalebo J.R. (1999a). Opportunities for improving integrated nutrient management by smallhold farmers in the Central Highlands of Kenya. African Crop Sci. J. 7(4): 441–454
Woomer P.L., Bekunda M.A. and Nkalubo S.T. (1999b). Estimation of banana yield based on bunch phenology. African Crop Sci. J. 7(4): 341–347
Woomer P.L., Okalebo J.R., Maritim H.K., Obura P.A., Mwaura F.M., Nekesa P. and Mukhwana E.J. (2003a). PREP-PAC: A nutrient replenishment product designed for smallhoders in western Kenya. Agri. Ecosys. Environ. 100: 295–303
Woomer P.L., Musyoka M.W. and Mukhwana E.J. 2003b. Best Bet Maize – Legume Intercropping Technologies and Summary of 2002 Network Findings. Best bet Bulletin, SACRED Africa, Bungoma, Kenya. pp. 18.
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Okalebo, J.R., Othieno, C.O., Woomer, P.L. et al. Available technologies to replenish soil fertility in East Africa. Nutr Cycl Agroecosyst 76, 153–170 (2006). https://doi.org/10.1007/s10705-005-7126-7
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DOI: https://doi.org/10.1007/s10705-005-7126-7