Abstract
Based on farmers’ knowledge and laboratory studies, the nutrient accumulation in the topsoil (0–20 cm) under Cordia africana Lam (Cordia), Millettia ferruginea Hochst (Millettia) and Eucalyptus camaldulensis Dehnhardt (Red gum) managed under two agroforestry practices on different farms at three sites was evaluated. The number of these trees on individual farms has increased during the last two decades. The number of stems ha−1 of Red gum was higher on farms of wealthier households than on farms of poor and medium households at two of the sites, but, at one site the number of stems ha−1 on farms of poor households was higher than on farms of wealthier households. Apart from the concentration of Na in the topsoil, there were significant variations in the analysed soil nutrients between the tree species. At all study sites, significantly higher concentration of P was observed under Millettia and Cordia than under Red gum. At one site, concentrations of available P under Cordia were nearly two-fold, and four and half-fold greater than under Millettia and Red gum, respectively. At one site, total N under Red gum was 14% and 24% lower than under Cordia and Millettia, respectively. In contrast, organic C content under Red gum was 11.6% greater than under Millettia and 23.8% greater than under Cordia. The pH under Millettia and Cordia were significantly higher than concentrations under Red gum at one site. Topsoil under Millettia and Cordia also had significantly higher levels of exchangeable Ca and Mg than Red gum.
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References
Basu PK, Mandi MA (1987) Effect of eucalyptus monoculture on the soils of southwest Bengal, Midnapore district. J Tropic Forest 3(11I):228–234
Bekele A, Birnie A, Tengnas B (1993) Useful Trees and Shurbs: identification, propagation and management for agriculture and postoral comunnities. RSCU/SIDA, Nairobi 474
Black CA, Evans DD, White JL, Ensminger LE, Clark FE (1965) Methods of soil analysis. Part 1. physical and mineralogical properties, including statistics of measurement and sampling. Am. Soc. Agro., Inc., Madison, Wisconsin
Breemner JM, Mulvaney CS, (1982) Nitrogen-total. In: Page AL, Miller RH, Keeney DR (eds) Methods of soil analysis. Part 2. Chemical and microbiological properties. agronomy monograph No. 9, 2nd edn. American Society of Agronomy, Madison, WI, pp 595–622
Campbell BM, Frost P, King JA, Mawanza M, Mhlanga L (1994) The influence of trees on soil fertility on two contrasting semi-arid soils types at Matopos, Zimbabwe. Agroforestry systems 28:159–172
Chapman HD (1965) Cation exchange capacity. In: Black CA, Evans DD, White JL, Ensminger LE, Clark FE (eds) Methods of soil analysis. Part 2. Agronomy monograph 9. pp 891–901
den Biggelaar C (1996) Farmer experimentation and innovation: a case study of knowledge generation process in agroforestry systems in Rwanda. In: Noncy Hart (ed) Community Forestry Case Study Series 12, FAO, Rome
EMA (Ethiopian Mapping Agency). 1988 National Atlas of Ethiopia. Berhanena Selam Printing Press, Addis Ababa, Ethiopia
Fernandez JQP, Dias LE, Barros NF, Novais RF, Moraes EJ (2000) Productivity of Eucalyptus camaldulensis affected by rate and placement of two phosphorus fertilizers to a Brazilian Oxisol. Forest Ecol Manage 127:93–102
Fisher RF (1995) Amelioration of degraded rain forest soils by plantations of native trees. Soil Sci Soc Am J 59:544–549
Grewal SS, Singh K, Juneja ML (1992) Nitrogen fertilization of short and high density energy plantation of eucalyptus raised on light textured alluvial soil of India. J Trop Forest 8(11):143–154
Gindaba J, Rozanov A, Negasha L (2005) Trees on farms and their contribution to soil fertility parameters in Bedessa, Estern Ethiopia. Biol Fertil 42:66–71
Harrison RB, Reis GG., Reis MDGF, Bernodo AL, Frme DJ (2000) Effect of spacing and age on nitrogen and phosphorus distribution in biomass of Eucalyptus camaldulensis, Eucalyptus pellita and Eucalyptus urophylla plantation in southern Brazil. Forest Ecol Manage 133:167–177
Kamara CS, Haque I (1992) Faidherbia albida and its effects on Ethiopian highland Vertisoils. Agroforest Syst 18:17–29
Kahurananga J, Alemayehu Y, Tadesse S, Bekele T (1993) Informal serveys to assess social forestry at Dibandiba and Aleta Wendo, Ethiopia. Agroforest Syst 24:57–80
Khanna PK (1998) Nutrient cycling under mixed-species tree systems in Southern Asia. Agrofores Syst 38:99–120
Kushalapa KA (1987) Nutrient status under Mysore Gum plantation for ten years near Bangolore. J Trop Forest 3(II):42–47
Lisanework N, Michelsen A (1993) Allelopathy in agroforestry systems: the effects of leaf extract of Cupressus lusitanica and three Eucalyptus spp. on four Ethiopia crops. Agroforest Syst 21:63–74
Malik RS, Sharma SK (1990) Moisture extraction and crop yield as a function of distance from a row of Eucalyptus tereticornis. Agroforest Syst 12:187–195
Mallik BB, Pati DP (1996) Production and turnover of litter in a Eucalyptus tereticornis (Hybrid) plantation of Baragarh, Orissa. J Trop Forest 12(1):12–16
Michelsen A, Lisanework N, Friis IB (1993) Impacts of tree plantations in the Ethiopian highland on soil fertility, shoot and root growth, nutrient utilization and mycorrhizal colonization. Forest Ecol Manage 61:299–324
Negash N (1995) Indigenous trees of Ethiopia: biology, uses and propagation techniques. Printed by SLU Reprocentralen, Umeå, Sweden
Olsen SR, Cole CV, Watanabe FS, Dean LA (1954) Estimation of available phosphorus in soil by extraction with NaHCO3; U.S. Department of Agriculture Circular, U.S. Government Printing Office, Washington, D.C., p 939
Pohjonen V, Pukkala T (1990) Eucalyptus globulus in Ethiopia Forestry. Forest Ecol Manage 36:19–31
Ralhan PK, Singh A, Dhanda RS (1992) Performance of wheat as intercrop under poplar (Populus deltoids Bartr) plantaion in Punjab (India). Agroforest Syst 19:217–222
Rao MR, Nair PKR, Ong CK (1998) Biophysical interactions in tropical Agroforestry systems. Agroforest Syst 38:3–50
Schnitzer M (1982) Total carbon, organic matter, and carbon. In: Page AL, Miller RH, Keeney DR (eds) Methods of soil analysis. Part 2, 2nd edn. Agronomy Monograph, vol 9. American Society of Agronomy, Madison, WI, pp 539–577
Soni P, Vasistha HB (1991) Understorey vegetation in eucalyptus plantations - a review. J Trop Forest (1):15–26
Tadesse H, Legess NL, Olsson M (2000) Millettia ferruginea from southern Ethiopia: Impacts on soil fertility and growth of maize. Agroforest Syst 48: 9–24
Tornquist CG, Hons FM, Feagley SE, Haggar J (1999) Agroforestry system effect on soil characteristics of the Sarapiqui region of Costa Rica. Agric Ecosyst and Environ 73:19–28
Woldetensaye A (1997) The ecology and production of Ensete Vertricosum in Ethiopia. Swedish University of Agricultural Sciences, Department of Soil Science, Doctoral thesis
Yadessa A, Itanna F, Olso M (2001) Contribution of indigenous trees to soil properties: the case of scattered trees of Cordia africana Lam. in croplands of western Oromia. Ethiopian J Nat Resour 3(2):245–270
Young A (1997) Agroforestry for soil management. CAB International, Wallingford, UK and ICRAF, Nairobi, Kenya
Acknowledgements
The authors are grateful to financial and material support provided by Swedish International Development Cooperation Agency, Sweden and Wondo Genet College of Forestry, Ethiopia and the Ethiopian National Soil Laboratory Service in Addis Ababa, for its assistance in soil laboratory analysis.
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Zebene Asfaw, Ågren, G.I. Farmers’ local knowledge and topsoil properties of agroforestry practices in Sidama, Southern Ethiopia. Agroforest Syst 71, 35–48 (2007). https://doi.org/10.1007/s10457-007-9087-0
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DOI: https://doi.org/10.1007/s10457-007-9087-0