Effect of Firewood Energy Consumption of Households on Status of Soil Fertility in Debis Watershed, Ambo District, Oromia Regional State, Ethiopia
Keywords:
Energy, Firewood, Household, Land cover, Soil fertilityAbstract
The increasing population of Ethiopia has resulted in excessive forest clearing for agricultural purpose, overgrazing and exploitation of the existing forests for fuel. The Environmental impact of over dependence on forest resources for energy source was not studied in sufficient detail in Debis watershed. Thus study was initiated to investigate the status of firewood consumption and its impact on soil fertility status. In order to investigate the impact of firewood consumption on soil fertility status, soil samples were collected from different land use types (deforested, grazing and natural forest) lands from soil of the upper (0-20cm) depth and analyzed for soil quality parameters (pH, organic carbon, total nitrogen, available phosphorus, CEC, and exchangeable bases). Data obtained were analyzed using PROC-GLM procedure of the Statistical Analysis System (SAS Institute, 2004). The results obtained from laboratory study of soil analysis, showed that, soil taken from natural forest had higher value of soil quality parameters such as: soil pH, organic carbon, CEC, total nitrogen and available phosphorus and potassium contents. The results clearly demonstrated that the different land use types had significant effects on soil quality, suggesting that a land cover change from forest land to the other land use types aggravated soil degradation, thereby resulting in soil fertility decline. Therefore, there is a need to develop sustainable and environmental friendly energy sources and practicing afforestation and forest management programs to overcome the deterioration of soil fertility of the study area in particular and other similar agro-ecological environments in the country.
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Achalu Chimdi., Heluf Gebrekidan., Kibebew Kibret and Abi Tadesse. (2012). Status of selected physicochemical properties of soils under different land use systems of Western Oromia, Ethiopia. Journal of Biodiversity and Environmental Sciences 2(3): 57-71.
Arshad, M.A., Lowery, B.and Grossman, B. (1996). Physical tests for monitoring soil quality. In: J.W. Doran, A.J. Jones, editors. Methods for assessing soil quality. Soil Science Society of America special publication Madison, WI: 123-140.
Barber, R. (1984). An assessment of the dominant soil degradation processes in Battlefield Park Mission Statement Plaque. Fort Harrison Headquarters. Richmond, Battlefield Park VA. Official Map and Guide.
Black, C.A. (1965). Methods of soil analysis, part II. American Society of Agronomy, Maidson, Wiscosin, USA.
Bojo, J. and Cassels, D. (1995). Land degradation and rehabilitation in Ethiopia: a reassessment AFTES Working paper No. 17. World Bank, Washington DC.
Charman, P.E.V. and Murphy, B.W. (2000). Soils: Their properties and Management. Oxford University press, Melbourne, Australia.
Devis, J., Freitans, F. (1984). Physical and chemical methods of soil and water analysis, Food and Agricultural Organization. Soil Bulletin No.10, Rome, Italy, 275-289.
EPA. (2003).State of Environmental Report of Ethiopia, Addis Abeba, Ethiopia. Volume I: The Resources Base, Its Utilization and Planning for Sustainability, Addis Ababa.
Eshetu, T. (2010). Assessment of Causes and Extent of Soil Degradation. MSc Thesis, Ambo University, Ethiopia.
FAO. (2013). Trends and impacts of foreign investments in developing country agriculture, Evidence from case studies, Food and Agricultural Organization of the United Nations, Rome.
Gebeyaw, T. (2007). Soil fertility status as influenced by different land uses in May bar areas of South Wello Zone, North Ethiopia. MSc Thesis, Haramaya University.
Islam, K.R. and Weil, R.R. (2000). Land use effects on soil quality in a tropical forest ecosystem Bangladesh. Agriculture, Ecosystems and Environment 79(1): 9-16.
Jackson, M. L. (1973). Soil chemical analysis. Prentice-Hall, New Delhi.
Martin, R.C. (1993). Soil sampling and methods of analysis. Lewis publisher's Canadian Society of Soil Science, Ottawa, Canada.
MME (Ministry of Mines and Energy. (2009). Energy Resources Potential of Ethiopia Energy Development, Follow-up and Expansion Department. April, 2009 Addis Abeba.
Karekezi, S., Lata, K. and Coelho, S.T. (2004). Traditional Biomass Energy Improving its Use and Moving to Modern Energy Use, Thematic Background Paper. International Conference for Renewable Energies, BONN.
Maitima, J., Reid, R.J., Gachimbi, L.N., Majule, A., Lyaruu, H., Pomery, D., Mugatha, S. Mathai, S .and Migisha, S. (2004). Regional synthesis paper: Methodological guide on how identify trends in the linkages between changes in land use, biodiversity and land degradation. The Land use Change, Impacts and Dynamics (LUCID) Project working paper N0.43. International Livestock Research Institute, Nairobi, Kenya.
Paulos, D. (2001). Natural resource management, human development and macroeconomic Performance in
Ethiopia. Northeast African Studies 8(1) (Nw Series) 27- 52.
Rowell, D.L. (1994). Soil science: Methods & Applications. Addison Wesley Longman Singapore Publishers (Pvt) Ltd., England, UK. 350p.
Sahlemedhin Sertsu (1999). Ethiopia: Integrated Soil Management for Sustainable Agriculture and Food Security in Southern and East Africa. Proceedings of the expert consultation, 8-12 December, 1997, Harare, Agritex, FAO, Rome, pp. 197-210.
SAS Institute (2004). SAS User’s Guide, Statistics Version 9.1. (Ed.). SAS Inst., Cary, NC, USA.
Tan, H.K. (1996). Soil Sampling, preparation and Analysis. Marcel Dekker, Inc., New York 209p.
Thompson, L.M. and Troeh, F.R. (1993). Soils and Soil Fertility. 5th edition. Oxford University Press. New York.
Walkley, A.J. and Black, C.A. (1934). An estimation of the Degtjareff method for determining soil organic matter and a proposed modification of the chromic acid titration method. Soil Science 37: 29-38.
Wolde, M. and Edzo, V. (2005). Impacts of Land Use Changes on Soil Nutrients and Erosion in Tigray, Ethiopia. Proceedings on International Agricultural Research for Development. October11-13, Stuttgart- Hohenheim.
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