Abstract
A study was conducted in southern Ethiopia to evaluate the nutrient status on smallholder farms with respect to land use class (garden, grassland, and outfield) and slope position (upper, middle, and lower). Soil physical and chemical properties were quantified using soil samples collected at two depths (0–15 and 15–30 cm). Available phosphorous was significantly different among the three land use classes. However, organic carbon and total nitrogen were lower in the outfield compared to the garden and grass land but not significantly different. The lower than expected nutrient status of the garden and grassland, which receive almost all available organic supplements, was attributed to the overall low availability of these inputs. Similarly, pH and cation exchange capacity were not significantly different among the different land use classes. However, the sum of the exchangeable cations was significantly higher in the garden compared to the outfields. Comparison at landscape level revealed that the sand fraction was significantly greater, whereas the silt fractions were significantly smaller, on the lower slopes relative to the middle slopes. Moreover, the organic carbon, total nitrogen, cation exchange capacity, Ca, and Mg values were significantly less on lower slopes than upper and middle slopes. Perhaps this is because of leaching and the effect of deposition of coarser sediments from the prevailing gully system. Overall, the fertility of the soil was adequate for supporting smallholder farming, but consideration must be given to reducing pressure on the land resources, addressing erosion problems, and providing a line of credit for purchasing inputs.
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References
Alemayehu K (2007) Effects of different land use systems and topography on selected soil properties at Delbo Watershed, Wolayita Zone, southern Ethiopia. Msc thesis. Hawassa University, Hawssa, Ethiopia
Allison LE (1965) Organic carbon. In: Black CA (ed) Methods of soil analysis. Part 2: Chemical and microbiological properties, vol. 9. Am. Soc. Agro. Inc., Madison, WI
Bewket W, Stroosnijder L (2003) Effects of agroecological land use succession on soil properties in Chemoga watershed, Blue Nile basin, Ethiopia. Geoderma 111:85–98
Blake GR, Hartge KH (1965) Bulk density. In: Black CA (ed) Methods of soil analysis. Part 1: Physical and mineralogical methods, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 374–390
Brady N, Weil R (1996) The nature and properties of soils, 11th edn. Prentice-Hall, Upper Saddle River, NJ
Bremmer JM (1965) Total nitrogen. In: Black CA (ed) Methods of soil analysis. Part 2: Chemical and microbiological properties, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 1149–1178
Chapman HD (1965) Cation exchange capacity. In: Black CA (ed) Methods of soil analysis. Part 2: Chemical and microbiological properties, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 891–901
Day PR (1965) Particle size analysis. In: Black CA (ed) Methods of soil analysis. Part 1: Physical and mineralogical methods, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 545–566
Debub University (2003) A report on PRA of Umbulo-Wacho Peasant Association. Operational research and capacity building for food security and sustainable livelihoods. Draft document
Elias E, Scoones I (1999) Perspectives on soil fertility change: a case study from southern Ethiopia. Land Degradation & Development 10:195–206
Elias E, Morse S, Belshaw DGR (1998) Nitrogen and phosphorus balances of Kindo Koisha farms in southern Ethiopia. Agriculture, Ecosystems and Environment 71:93–113
FAO (1998) World reference base for soil resources. FAO, ISRIC, and ISSS, Rome
FDRE (2002) Sustainable development and poverty reduction program. MoFED, Addis Abeba, Ethiopia
Fu B, Liu S, Chen L, Lü Y, Qiu J (2004) Soil quality regime in relation to land cover and slope position across a highly modified slope landscape. Ecological Research 19:111–118
Gregorich EG, Greer KJ, Anderson DW, Liang BC (1998) Carbon distribution and losses: erosion and deposition effects. Soil and Tillage Research 47:291–302
Haileselassie A, Priess J, Veldkamp E, Teketay D, Lesschen P (2005) Assessment of soil nutrient depletion and its spatial variability on smallholders’ mixed farming systems in Ethiopia using partial versus full nutrient balances. Agriculture, Ecosystems and Environment 108:1–16
Haileselassie A, Priess J, Veldkamp E, Lesschen J (2006) Smallholders’ soil fertility management in the Central Highlands of Ethiopia: implications for nutrient stocks, balances and sustainability of agroecosystems. Nutrient Cycling and Agroecosystem 75:135–146
Hao Y, Lal R, Owens LB, Izaurralde RC, Post WM, Hothem DL (2002) Effect of cropland management and slope position on soil organic carbon pool at the North Appalachian experimental watersheds. Soil & Tillage Research 68:133–142
Kippie T (2002) 5000 years of sustainability? A case study on Gedeo landuse (southern Ethiopia). Treebook 5. Treemail, Heelsum, the Netherlands
Landon JR (ed) (1984) Booker tropical soil manual. A handbook for soil survey and agricultural land evaluation in the tropics and subtropics. Booker Agricultural International, London
Lemenih M, Olsson M, Karltun E (2004) Comparison of soil attributes under Cupressus lusitanica and Eucalyptus saligna established on abandoned farmlands with continuously cropped farmlands and natural forest in Ethiopia. Forest Ecology and Management 195:57–67
Li Y, Lindstrom MJ (2001) Evaluating soil quality-soil redistribution relationship on terraces and steep hillslope. Soil Science Society of America Journal 65:1500–1508
Mesfin A (1998) Nature and management of Ethiopian soils. Alemaya University of Agriculture, Alemaya, Ethiopia
Moges A, Holden NM (2006) Land cover change and gully development in the Umbulo watershed, southern Ethiopia. In: McNulty P and Holden NM (eds) Biosystems Engineering Research Reviews 11:44–47
Moges A, Holden NM (2007) Farmers’ perception of soil erosion and fertility loss in southern Ethiopia. Land Degradation & Development 18:543–554
Moges A, Holden NM (2008) Estimating the rate and consequences of gully development, a case study of Umbulo catchment in southern Ethiopia. Land Degradation & Development (in press)
Morgan RPC (1996) Soil erosion and conservation, 2nd edn. Longman, London
Murage EW, Karanja NK, Smithson PC, Woomer PL (2000) Diagnostic indicators of soil quality in productive and non-productive small holders’ fields of Kenya’s central highlands. Agriculture, Ecosystems and Environment 79:1–8
Negassa W, Gebrekidan H (2004) The impact of different land use systems on soil quality of Alfisols of western Ethiopia. Rural poverty reduction through research for development and transformation. Deutscher Tropentag, Berlin. Available at: www.tropentag.de/2004/abstracts/full/265.pdf. Accessed January 5, 2007
NRC (National Soil Research Centre) (2000) Procedures for soil and plant analysis. Ethiopian Agricultural Research Organization, Addis Abeba
Olsen SR, Dean LA (1965) Phosphorous. In: Black CA (ed) Methods of soil analysis. Part 2: Chemical and microbiological properties, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 1035–1049
Rich CI (1965) Elemental analysis by flame photometery. In: Black CA (ed) Methods of soil analysis. Part 2: Chemical and microbiological properties, vol. 9. Am. Soc. Agro. Inc., Madison, WI, pp 849–864
Rowel DL (1994) Soil science methods and applications. Longman, London
Sanchez PA (1976) Properties and management of soils in the tropics. Wiley, New York
SPSS (Statistical Package for Social Sciences) (2001) SPSS for Windows. Release 11.0.1. Standard version. SPSS Inc., Chicago, IL
Tesfaye A (2005) Diversity in homegarden agroforestry systems of southern Ethiopia. Tropical Resource Management Papers, no. 59. Waginengen, the Netherlands
Tilahun A, Mulugeta D (2005) Optimizing soil fertility gradients in the Enset systems of the Ethiopian highlands; trade-offs and local innovations. African Highland Initiatives. Working paper 15
Tsegaye A (2002) On indgeneous production, genetic diversity and crop ecology of Enset (Enset ventricosum). Ph.D. thesis. Wageningen University, Wageningen, the Netherlands
Walle RJ, Sims BG (1999) Fertility gradient in naturally formed terraces on honduran hillside farms. Agronomy Journal 91:350–353
Wang J, Fu B, Qiu Y, Chen L (2001) Soil nutrients in relation to land use and landscape position in the semi-arid small catchment on the loess plateau in China. Journal of Arid Environments 48:537–550
Weizzel A, Steinmuller N, Friederichsen JR (2002) Slope position effects on soil fertility and crop productivity and implications for soil conservation in upland northwest Vietnam. Agriculture, Ecosystems and Environment 91:113–126
Wild A (1993) Soils and the environment: an introduction. Cambridge University Press, Cambridge, UK
Wolde M, Veldkamp E, Haile M, Nyssen J, Muys B, Gebrehiwot K (2007) Effectiveness of exclosures to restore degraded soils as a result of overgrazing in Tigray, Ethiopia. Journal of Arid Environments 69:270–284
Acknowledgments
This research was funded by Hawassa University, Ethiopia, and Irish Aid for the project ”Operational Research and Capacity Building for Food Security and Sustainable Livelihood.” We extend our sincere thanks to Dr. Sheleme Beyene, Hawassa University, for his help with soil classification and setup of the field study and his valuable comments. We also thank Mr. Abebe Abay and Dr. Zebene Mekru, National Soil Research Laboratory, for the soil analysis. We are very grateful to the farmers who allowed us to take soil samples from their farms. The comments of the three anonymous reviewers are gratefully acknowledged.
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Moges, A., Holden, N.M. Soil Fertility in Relation to Slope Position and Agricultural Land Use: A Case Study of Umbulo Catchment in Southern Ethiopia. Environmental Management 42, 753–763 (2008). https://doi.org/10.1007/s00267-008-9157-8
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DOI: https://doi.org/10.1007/s00267-008-9157-8