Abstract
Human population growth in Central America during the last thirty years has lead to encroachment of forests for food production and resulted in the replacement of forests with pastureland. Deforestation and degradation of productive soils have prompted researchers to investigate agroforestry as an alternative approach to land management. Silvopastoral systems in particular have been studied and their capacity to augment nutrient cycling, enhance soil processes, supply forage for livestock, and provide habitat for flora and fauna have been documented. Despite conclusive research findings, Central American producers are reluctant to integrate well-researched silvopastoral systems into their farming systems. Thus, it is imperative that researchers investigate the reasons for scant adoption, and that adoption is given precedence. We suggest that adoption research be made a priority on local, national, and regional silvopastoral research agendas. To explore incidence of low adoption, research should identify specific barriers, assess the technology generation process, examine the risks that silvopastoral adoption presents, and evaluate the potential for the integration of silvopastoral technologies on-farm. In addition, we recommend that the future Central American silvopastoral research agenda include the development of a clear understanding of the process of adoption specific to potential silvopastoral adopters in the region.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abdulrazak S.A., Muinga R.W., Thorpe W. and Orskov E.R.1996. The effects of supplementation with Gliricidia sepium or Leucaena leucocephala forage on intake, digestion and live-weight gains of Bos taurus x Bos indicus steers offered Napier grass.Animal Science63: 381–388.
Adejumo J.O.1992. Effect of plant age and harvest date in the dry season on yield and quality of Gliricidia sepium in southern Nigeria.Tropical Grasslands26: 21–24.
Andrew C.O. and Hildebrand P.E.1993. Applied Agricultural Research Foundations and Methodology.Westview Press, Boulder, Colorado, USA. 223p.
Argel P.J., Lascano C.E. and Ramirez L.1998. Leucaena in Latin American farming systems: challenges for development. In: Shelton H.M., Gutteridge R.C., Mullen B.F. and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp. 319–323. ACIAR, Australia.
Austin M.T., Williams M.J., Hammond A.C. and Weiguo S.1995. Establishment, forage production, and nutritive value of Leucaena in Central Florida.Agronomy Journal87: 915–920.
Belsky A.J., Mwonga S.M., Amundson R.G., Duxbury J.M. and Ali A.R.1993. Comparative effects of isolated trees on their undercanopy environments in high and low rainfall savannas.Journal of Applied Ecology30: 143–155.
Bunch R. and Lopez G.1995. Soil Recuperation in Central America: Sustaining Innovation after Invention, Gatekeeper Series no. SA55.Sustainable Agriculture Programme, International Institute of Environment and Development, London, England, 18p.
Cobbina J.1998. Forage productivity and quality of Leucaena as influenced by tree density and cutting interval in the humid tropics. In: Shelton H.M., Gutteridge R.C., Mullen B.F. and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp 253–256.ACIAR, Australia.
Dalzell S.A., Stewart J.L., Tolera A. and McNeill D.M.1998. Chemical composition of Leucaena and implication for forage quality. In: Shelton H.M., Gutteridge R.C., Mullen B.F. and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp 227–246.ACIAR, Australia.
Danso S.K.A., Bowen G.D. and Sanginga N.1992. Biological nitrogen fixation in trees in agro-ecosystems.Plant and Soil141: 177–196.
Escalante E.1998. The role of fodder trees in agroforestry systems in Venezuela. In: Daniel J. and Roshetko J. (eds), Forest, Farm, and Community Tree Research Reports −Special Issue, pp. 187–192.Farm Forest and Community Tree Network of Winrock International, Arkansas, USA.
Estrada A., Cammarano P. and Coates-Estrada R.2000. Bird species richness in vegetation fences and in strips of residual rain forest vegetation at Los Tuxtlas, Mexico.Biodiversity and Conservation9: 1399–1416.
Estrada A., Coates-Estrada R., Meritt D., Montiel S. and Curiel D.1993. Patterns of frugivore species richness and abundance in forest islands and in agricultural habitats at Los Tuxtlas, Mexico.Vegetatio 107/108: 245–257.
Food and Agricultural Organization of the United Nations 2001. Proteccion de los recursos naturales en sistemas ganaderos: los sistemas agroforestales pecuarios en America Latina. Juiz de Fora, MG, Brasil 18–22 septiembre de 2000, FAO-Embrapa Ganado de Leche, Roma. 38p.
FAOSTAT2000. FAO Statistical Databases http://apps.fao.org/.
George S.J., Kumar B.M., Wahid P.A. and Kamalam N.V.1996. Root competition for phosphorous between the tree and herbaceous components of silvopastoral systems in Kerala, India.Plant and Soil179: 189–196.
Gonzalez J., Lobo M.V.D., Acuna V., Argel P.J., Hidalgo C. and Romero F.2001. Utilization of the shrub Cratylia argentea cv. Veraniega as protein supplement for milking cows during the dry season in Costa Rica. In: Ibrahim M. (compiler), International Symposium on Silvopastoral Systems, Second Congress in Agroforestry and Livestock Production in Latin America, San Jose, Costa Rica April 2–9 2001, pp. 403–407.CATIE, Costa Rica.
Guevara S., Purata S.E. and Van de Maarel E.1986. The role of remnant trees in secondary forest succession.Vegetatio66: 77–84.
Gutteridge R.C.1994. The perennial Sesbania species. In: Gutteridge R.C. and Shelton H.M. (eds), Forage Tree Legumes in Tropical Agriculture, pp. 49–64.CAB International, UK.
Harvey C.A.2000. Windbreaks enhance seed dispersal into agricultural landscapes in Monteverde, Costa Rica.Ecological Applications10(1): 155–173.
Harvey C.A. and Haber W.A.1999. Remnant trees and conservation of biodiversity in Costa Rican pastures.Agroforestry Systems44: 37–68.
Harvey C.A., Haber W.A., Mejias F. and Solano R.1998. Remnant trees in Costa Rican pastures, tools for conservation?Agroforestry Today July-Sept: 7–9.
Heitz-Siefert U., Heitz P. and Guevara S.1996. Epiphyte vegetation and diversity on remnant trees after forest clearance in southern Mexico, Veracruz.Biological Conservation75: 103–111.
Hildebrand P.E. and Russell J.T.1996. Adaptability Analysis: A Method for the Design, Analysis and Interpretation of On-Farm Research-Extension.Iowa State University Press, Ames, Iowa, USA. 189p.
Huxley P.A.1999. Tropical Agroforestry.Blackwell Science, Malden, Massachusetts, USA. 389p.
Ibrahim M.A., Holmann F., Hernandez M. and Camero A.2000. Contribution of Erythrina to protein banks and rejected bananas for improving cattle production in the humid tropics.Agroforestry Systems49: 245–254.
Jayasundara H.P.S., Dennett M.D. and Sangakkara U.R.1997. Biological nitrogen fixation in Gliricidia sepium and Leucaena leucocephala and transfer of fixed nitrogen to an associated grass.Tropical Grasslands31: 529–537.
Joly L.G.1990. The conversion of rain forests to pastures in Panama. In: Schumann D.A. and Partridge W.L. (eds), The Human Ecology of Tropical Land Settlement in Latin America, pp. 86–132.Westview Press, Boulder, Colorado, USA.
Jones R.J., Galgal K.K., Castillo A.C., Palmer B., Deocareza A. and Bolam M.1998. Animal production from five species of Leucaena. In: Shelton H.M., Gutteridge R.C., Mullen B.F. and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp. 247–252.ACIAR, Australia.
Kass D.L.1994. Erythrina species-pantropical multipurpose tree legumes. In: Gutteridge R.C. and Shelton H.M. (eds), Forage Tree Legumes in Tropical Agriculture, pp. 84–96.CAB International, UK.
Larsen P.H., Middleton C.H., Bolam M.J. and Chamberlin J.1998. Leucaena in large-scale grazing systems: challenges for development. In: Shelton H.M., Gutteridge R.C., Mullen B.F. and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp. 324–330.ACIAR, Australia.
Latt C.R., Nair P.K.R. and Kang B.T.2001. Reserve carbohydrate levels in the boles and structural roots of five multipurpose tree species in a seasonally dry tropical climate.Forest Ecology and Management146: 145–158.
Liyanage M. de S., Danso S.K.A. and Jayasundara H.P.S.1994. Biological nitrogen fixation in four Gliricidia sepium genotypes.Plant and Soil161: 267–274.
Merrill-Sands D., Ewell P., Biggs S., Bingen R.J., McAllister J. and Poats S.1992. Management of key institutional linkages in on-farm client-oriented research. In: Moock J.L. and Rhoades R.E. (eds), Diversity, Farmer Knowledge, and Sustainability, pp. 113–146.Cornell University Press, Ithaca, New York, USA.
Mugendi D.N., Nair P.K.R., Mugwe J.N., O'Neil M.K. and Woomer P.1999. Alley cropping of maize with Calliandra and Leucaena in the subhumid highlands of Kenya: Part 2. Soil-fertility changes and maize yield.Agroforestry Systems 46(1): 39–50.
Nair P.K.R., Buresh R.J., Mugendi D.N. and Latt C.R.1999. Nutrient cycling in tropical agroforestry systems: myths and science. In: Buck L.E., Lassoie J.P. and Fernandes E.C.M. (eds), Agroforestry in Sustainable Agricultural Systems, pp. 1–31.CRC Press, Boca Raton, Florida, USA.
Nepstad D.C., de Carvalho C.R., Davidson E.A., Jipp P.H., Lefebvre P.A., Negreiros G.H., da Silva E.D., Stone T.A., Trumbore S.E. and Vieira S.1994. The role of deep roots in the hydrological and carbon cycles of Amazonian forests and pastures.Nature372: 666–669.
Nyaata O.Z., O'Neill M.K. and Roothaert R.L.1998. Comparison of Leucaena leucocephala with Caliandra calothyrsus in Napier (Pennisetum purpureum) fodder banks. In: Shelton H.M., Gutteridge R.C., Mullen B.F., and Bray R.A. (eds), Leucaena-Adaptation, Quality, and Farming Systems, Proceedings No. 86, pp. 257–260.ACIAR, Australia.
Nygren P., Lorenzo A. and Cruz P.2000. Decomposition of woody legume nodules in two tree-grass associations under contrasting environmental conditions.Agroforestry Systems48: 229–244.
Palmer B., Macqueen D.J. and Gutteridge R.C.1994. Calliandra calothyrsus-a multipurpose tree legume for humid locations. In: Gutteridge R.C. and Shelton H.M. (eds), Forage Tree Legumes in Tropical Agriculture, pp. 65–74.CAB International, UK.
Rao A.V. and Giller K.E.1993. Nitrogen fixation and its transfer from Leucaena to grass using 15N.Forest Ecology and Management61: 221–227.
Shelton H.M., Lowry J.B., Gutteridge R.C., Bray R.A. and Wildin J.H.1991. Sustaining productive pastures in the tropics 7. Tree and shrub legumes in improved pastures.Tropical Grasslands25: 119–128.
Simons A.J. and Stewart J.L.1994. Gliricidia sepium-a multipurpose forage tree legume. In: Gutteridge R.C. and Shelton H.M. (eds), Forage Tree Legumes in Tropical Agriculture, pp. 30–48.CAB International, UK.
Tornquist C.G., Hons F.M., Feagley S.E. and Haggar J.1999. Agroforestry system effects on soil characteristics of the Sarapiqui region of Costa Rica.Agriculture, Ecosystems, and Environment73: 19–28.
Van Velduizen L., Waters-Bayer A. and De Zeeuw H.1997. Developing Technology with Farmers: A Trainer's Guide for Participatory Learning.Zed Books, London, UK. 283p.
Wedderburn M.E. and Carter J.1999. Litter decomposition by four functional tree types for use in silvopastoral systems.Soil Biology and Biochemistry31: 455–461.
Wick B., Tiessen H. and Menezes R.S.C.2000. Land quality changes following the conversion of the natural vegetation into silvo-pastoral systems in semi-arid NE Brazil.Plant and Soil222: 59–70.
Wood S., Sebastian K. and Scherr S.J.2000. Pilot Analysis of Global Ecosystems: Agroecosystems.International Food Policy Research Institute and World Resources Institute, Washington DC, USA. 93p.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Dagang, A.B.K., Nair, P. Silvopastoral research and adoption in Central America: recent findings and recommendations for future directions. Agroforestry Systems 59, 149–155 (2003). https://doi.org/10.1023/A:1026394019808
Issue Date:
DOI: https://doi.org/10.1023/A:1026394019808