Abstract
Inputs of organic materials play a central role in the productivity of many tropical farming systems by providing nutrients through decomposition and substrate for synthesis of soil organic matter (SOM). The organic inputs in many tropical farming systems such as crop residues, manures, and natural fallows are currently of low quality and insufficient quantity to maintain soil fertility hence there is need to find alternative or supplementary sources of nutrients. Knowledge gained over the past decade on the role of organic resource quality in influencing soil nutrient availability patterns (Synchrony Principle) and SOM maintenance (SOM Principle) provides a strong scientific basis on which to develop management tools. This scientific information must be linked with farmer knowledge and circumstances to provide a realistic approach to soil fertility and SOM management in the tropics. A decision tree has been developed for testing hypotheses about the resource quality parameters that affect nitrogen release patterns and rates. The decision tree is linked to an Organic Resource Database (ORD) with detailed information on the resource quality of agroforestry trees and leguminous cover crops providing a systematic means of selecting organic resources for soil fertility management. The decision tree has also been translated into a practical field guide for use with farmers in evaluating organic materials. The longer-term effects of organic inputs on SOM might also be addressed through the decision tree and database. It is generally believed that materials good for short-term soil fertility will not build or maintain SOM; if true then it is difficult to imagine practical means of maintaining SOM in the African context where short-term fertility issues will take precedence over longer-term maintenance of SOM.
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References
Aber J.D. and Mellilo J.M. 1982. Nitrogen mineralization in decaying hardwood litter as a function of initial nitrogen and lignin content. Canadian Journal of Botany 60: 2236–2269.
Anderson J.M. and Swift M.J. 1983. Decomposition in tropical forests. In: Sutton S.C., Whitmore T.C. and Chadwick A.C. (eds), Tropical Rain Forest: Ecology and Management. Blackwell, Oxford, UK, pp. 287–310.
Barrios E., Kwesiga F., Buresh R.J. and Sprent J.I. 1997. Light fraction soil organic matter and available nitrogen following trees and maize. Soil Science Society of America. Journal 61: 826–831.
Becker M. and Ladha J.K. 1997. Synchronizing residue N mineralization with rice N demand in flooded conditions. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 231–238.
Berg B. and Staff H. 1980. Decomposition rate and chemical changes of Scotts pine needle litter. II. Influence of chemical composition. In: Persson T (ed.),. Ecological Bulletins (Stockholm) 32 Structure and Function of Northern Coniferous Forests — An Ecosystem Study: 373–390.
Blair G.J., Lefroy R.D.B., Singh B.P. and Till A.R. 1997. Development and use of a carbon management index to monitor changes in soil C pool size and turnover rate. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 273–281.
Cadisch G. and Giller K.E. (eds) 1997. Driven by Nature: Plant Residue Quality and Decomposition. CAB International, Wallingford, UK, 409 pp.
Constantinides M. and Fownes J.H. 1994. Nitrogen mineralization from leaves and litter of tropical plants — relationship to nitrogen, lignin and soluble polyphenol concentrations. Soil Biology and Biochemistry 26: 49–55.
Detwiler R.P. 1986. Land use change and global carbon cycle: the role of tropical soil. Biogeochemistry 2: 67–93.
Drechsel P., Steiner K.G. and Hagedorn F. 1996. A review on the potential of improved fallows and green manure in Rwanda Agroforestry Systems 33: 109–136.
Feller C., Albrecht A. and Tessier D. 1996. Aggregation and organic matter storage in kaolinitic and smectitic tropical soils. In: Carter M.R. and Stewart B.A. (eds), Advances in Soil Science. CRC Lewis Publishers, Boca Raton, FL, USA, pp. 309–359.
Feller C. and Beare M.H. 1997. Physical control of soil organic matter dynamics in the tropics. Geoderma 79: 69–116.
Giller K.E. 2000. Translating science into action for agricultural development in the tropics: an example from decomposition studies. Applied Soil Ecology 14: 1–3.
Giller K.E. and Cadisch G. 1995. Future benefits from biological nitrogen fixation: an ecological approach to agriculture. Plant and Soil 174: 255–277.
Giller K.E. and Cadisch G. 1997. Driven by nature: a sense of arrival or departure. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 393–399.
Giller K.E., Cadisch G., Ehaliotis C., Adams E., Sakala W.D. and Mafongoya P.L. 1997. Building soil nitrogen capital in Africa. In: Buresh R.J. and Sanchez P.A. (eds), Replenishing Soil Fertility in Africa. ASSA, CSSA, SSSA, Madison, WI, USA, pp. 151–192.
Goyal S., Mishra M.M., Hooda I.S. and Singh R. 1992. Organic matter-microbial biomass relationships in field experiments under tropical conditions: effects of inorganic fertilization and organic amendments. Soil Biology and Biochemistry 24: 1081–1084.
Greenland D.J. and Ford G.W. 1964. Separation of partially humified organic materials from soils by ultrasonic vibration. Soil Science Society of America Journal 67: 845–856.
Handayanto E., Cadisch G. and Giller K.E. 1994. Nitrogen release from prunings of legume hedgerow trees in relation to quality of the prunings and incubation method. Plant and Soil 160: 237–248.
Handayanto E., Cadisch G. and Giller K.E. 1997a. Regulating N mineralization from plant residues by manipulation of quality. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 175–185.
Handayanto E., Giller K.E. and Cadisch G. 1997b. Nitrogen mineralization from mixtures of legume tree prunings of different quality and recovery of nitrogen by maize. Soil Biology and Biochemistry 29: 1417–1426.
Heal O.W., Anderson J.M. and Swift M.J. 1997. Plant Liter Quality and Decomposition: an historical overview. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 3–30.
IIRR 1998. Sustainable Agriculture Extension Manual for East and Southern Africa. International Institute of Rural Reconstruction, Nairobi, Kenya.
Ingram J.S.I. and Swift M.J. 1989. Tropical Soil Biology and Fertility Programme Fourth TSBF Interregional Workshop Biology International Special Issue 20. International Union of Biological Sciences, Paris, France.
Janzen R.A., Shayekwich C.F. and Boon G.T. 1988. Stabilization of residual C and N in soil. Canadian Journal of Soil Science 68: 733–745.
Jenkinson D.S. 1981. The fate of plant and animal residues in soil. In: Greenland D.J (ed.), The Chemistry of Soil Processes. John Wiley & Sons, New York, USA, pp. 505–563.
Jenkinson D.S. and Powlson D.S. 1976. The effects of biocidal treatments on metabolism in soil. V. A method of measuring soil microbial biomass. Soil Biology and Biochemistry 8: 209–213.
Jenkinson D.S. and Rayner J.H. 1977. The turnover of soil organic matter in some of the Rothamsted classical experiments. Soil Science 123: 298–305.
Jones R.B., Snapp S.S. and Phombeya H.S.K. 1997. Management of leguminous leaf residues to improve nutrient use efficiency in the sub-humid tropics. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: plant litter quality and decomposition. CAB International, Wallingford, UK, pp. 239–250.
Larson W.E., Clapp C.E., Pierre W.H. and Morachan Y.B. 1972. Effects of increasing amounts of organic residues on continuous corn: ii. organic carbon, nitrogen, phosphorus and sulphur. Agronomy Journal 64: 204–208.
Mafongoya P.L., Giller K.E. and Palm C.A. 1998. Decomposition and nitrogen release patterns of tree prunings and litter. Agroforestry Systems 38: 77–97.
Mafongoya P.L., Nair P.K. and Dzowela B.H. 1997a. Multipurpose tree prunings as a source of nitrogen to maize under semiarid conditions in Zimbabwe. 1. Nitrogen-recovery rates in relation to pruning quality and the method of application. Agroforestry Systems 35: 31–46.
Mafongoya P.L., Nair P.K. and Dzowela B.H. 1997b. Multipurpose tree prunings as a source of nitrogen to maize under semiarid conditions in Zimbabwe. 2. Nitrogen-recovery rates and crop growth as influenced by mixtures of prunings. Agroforestry Systems 35: 47–56.
Mafongoya P.L., Nair P.K. and Dzowela B.H. 1997c. Multipurpose tree prunings as a source of nitrogen to maize under semiarid conditions in Zimbabwe. 3. Interactions of pruning quality and time and method of application on nitrogen recovery by maize in two soil types. Agroforestry Systems 35: 57–70.
Magid J., Gorissen A. and Giller K.E. 1986. In search of the elusive ‘active’ fraction of soil organic matter: three size-density fractionation methods for tracing the fate of homogeneously 14C labelled plant materials in soil. Soil Biology and Biochemistry 28: 89–99.
Melillo J.M., Aber J.D., Linkins A E, Ricca A., Fry B. and Nadelhoffer K.J. 1989. Carbon and nitrogen dynamics along a decay continuum: plant litter to soil organic matter. In: Clarholm M. and Bergstrom L. (eds), Ecology of Arable Land: Perspectives and Challenges. Proceedings of an international symposium, 9–12 June 1987. Kluwer Academic Publishers, Dordrecht, The Netherlands, pp. 53–62.
Mugwira L.M. and Mukurumbira L.M. 1984. Comparative effectiveness of manures from the communal areas and commercial feedlots as plant nutrient sources. Zimbabwe Agriculture Journal 81: 241–250.
Mulongoy K., Ibewiro E.B., Oseni N., Kilumba A.O., Opara-Nadi and Osunubi O. 1993. Effect of management practices on alleycropped maize utilization of nitrogen derived from prunings on a degraded alfisol in south-western Nigeria. In: Mulongoy K. and Merckx R. (eds), Soil Organic Matter Dynamics and Sustainability of Tropical Agriculture. John Wiley and Sons, Chichester, UK, pp. 223–230.
Myers R.J.K., Palm C.A., Cuevas E., Gunatilleke I.U.N. and Brossard M. 1994. The synchronisation of nutrient mineralization and plant nutrient demand. In: Woomer P.L. and Swift M.J. (eds), The Management of Tropical Soil Biology and Fertility. Wiley-Sayce Publishing, Exeter, UK, pp. 81–116.
Myers R.J.K., van Noordwijk M. and Vityakon P. 1997. Synchrony of nutrient release and plant demand: plant litter quality, soil environment and farmer management options. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, UK, pp. 215–229.
Nye P.H. and Greenland D.J. 1960. The Soil Under Shifting Cultivation. Commonwealth Agricultural Bureaux, Harpenden, UK, 156 pp.
Palm C.A., Myers R.J.K. and Nandwa S. 1997. Combined use of organic and inorganic nutrient sources for soil fertility maintenance and nutrient replenishment. In: Buresh R.J. and Sanchez P.A. (eds), Replenishing Soil Fertility in Africa. ASSA, CSSA, SSSA, Madison, WI, USA, pp. 193–217.
Palm C.A. and Sanchez P.A. 1991. Nitrogen release from the leaves of some tropical legumes as affected by their lignin and poly-phenolic contents. Soil Biology and Biochemistry 23: 83–88.
Palm C.A., Swift M.J. and Woomer P.L. 1996. Biological dynamics in slash-and-burn agriculture. Agriculture, Ecosystems, and Environment 58: 61–74.
Palm C.A. and Rowland A.P. 1997. A minimum dataset for characterization of plant quality for decomposition. In: Cadisch G. and Giller K.E. (eds), Driven by Nature: Plant Litter Quality and Decomposition. CAB International, Wallingford, pp. 379–393.
Parton W.J., Anderson D.W., Cole C.V. and Stewart J.W.B. 1983. Simulation of soil organic matter formation and mineralization in semiarid agroecosystems. In: Lowrance R.R., Todd R.L., Asmussen L.E. and Leonard R.A. (eds), Nutrient Cycling in Agricultural Ecosystems. Special Publication 23. University of Georgia Agricultural Experiment Station, Athens, GA, USA, pp. 533–550.
Paustian K., Parton W.J. and Persson J. 1992. Modelling soil organic-matter in organic-amended and nitrogen-fertilized longterm plots. Soil Science Society of America Journal 56: 476–488.
Prudencio C.F. 1993. Ring management of soils and crops in the West African semi-arid tropics: the case of the mossi farming system in burkina faso. Agriculture, Ecosystems and Environment 47: 237–264.
Sakala W., Cadisch G. and Giller K.E. 2000. Interactions between residues of maize and pigeonpea and mineral N fertilizers during decomposition and N mineralization. Soil Biology and Biochemistry 32: 699–706.
Schnitzer M. 1978. Humic substances: chemistry and reactions. In: Khan S. O (ed.), Soil Organic Matter. Elsevier, The Netherlands, pp. 1–64.
Schroth G., Kolbe D., Pity B. and Zech W. 1995. Searching for criteria for the selection of efficient tree species for fallow improvement, with special reference to carbon and nitrogen. Fertilizer Research 42: 297–314.
Stevenson F.J. and Elliott E.T. 1989. Methodologies for assessing the quantity and quality of soil organic matter. In: Coleman D.C., Oades J.M. and Uehara G. (eds), Dynamics of Soil Organic Matter in Tropical Ecosystems. University of Hawaii Press, Honolulu, HI, USA, pp. 173–199.
Sturdy D. 1939. Leguminous crops in native agricultural practice. East African Agricultural Journal 5: 31–33.
Swift M.J. 1981. The importance of detrital resources in natural and managed terrestrial ecosystems. In: Misra K.C., Pandey H.N. and Govie S.R. (eds), Ecology and Resource Management in the Tropics Vol. 1. International Society of Tropical Ecology, Varanasi, India, pp. 311–319.
Swift M.J., Cook A.G. and Perfect T.J. 1980. The effects of changing agricultural practice on the biology of a forest soil in the sub-humid tropics II Decomposition. In: Furtado J.I (ed.), Tropical Ecology and Development. International Society of Tropical Ecology, Kuala Lumpur, Malaysia, pp. 341–348.
Swift M.J., Heal OW. and Anderson J.M. 1979. Decomposition in Terrestrial Ecosystems. Blackwell Scientific Publications, Oxford, UK, 372 pp.
Tenney F.G. and Waksman S.A. 1929. Composition of natural organic materials and their decomposition. IV. The nature and rapidity of decomposition of the various organic complexes in different materials, under aerobic conditions. Soil Science 28: 55–84.
Tian G., Brussaard L. and Kang B.T. 1995. An index for assessing the quality of plant residues and evaluating their effects on soil and crop in the (sub-)humid tropics. Applied Soil Ecology 2: 25–32.
Tian G., Kang B.T. and Brussaard L. 1993. Mulching effect of plant residues with chemically contrasting compositions on maize growth and nutrients accumulation. Plant and Soil 153: 179–187.
TSBF 1984. Soil Biological Processes and Tropical Soil Fertility: a proposal for a collaborative programme of research. International Union of Biological Sciences, Paris, France, Biology International Special Issue 5.
TSBF 1985. Tropical Soil Biology and Fertility (TSBF): planning for research. International Union of Biological Sciences, Paris, France, Biology International Special Issue 9.
TSBF 1987. Tropical Soil Biology and Fertility (TSBF): interregional research planning workshop. International Union of Biological Sciences, Paris, France, Biology International Special Issue 13.
van Noordwijk M., Cern C., Woomer P.L., Nugroho K. and Bernoux M. 1997. Soil carbon dynamics in the humid tropical forest zone. Geoderma 79: 187–225.
Waksman S.A. and Stevens K.R. 1928. Contribution to the chemical composition of peat: i. chemical nature of organic complexes in peat and methods of analysis. Soil Science 28: 113–135.
Woomer P.L., Palm C.A., Qureshi J.N. and Kotto-Same J. 1997. Carbon sequestration and organic resource management in African smallholder agriculture. In: Lal R., Kimble J.M., Follett R.F. and Stewart B.A. (eds), Management of Carbon Sequestration in Soil. CRC Press, Boca Raton, FL, USA Advances in Soil Science., pp. 58–78.
Woomer P.L. and Swift M.J. (eds) 1994. The Biological Management of Tropical Soil Fertility. John Wiley, Chichester, UK, 243 pp.
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Palm, C.A., Giller, K.E., Mafongoya, P.L., Swift, M.J. (2001). Management of organic matter in the tropics: translating theory into practice. In: Martius, C., Tiessen, H., Vlek, P.L.G. (eds) Managing Organic Matter in Tropical Soils: Scope and Limitations. Developments in Plant and Soil Sciences, vol 93. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-2172-1_7
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DOI: https://doi.org/10.1007/978-94-017-2172-1_7
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