Status of selected physicochemical properties of soils under different land use systems of Western Oromia, Ethiopia

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Research Paper 01/03/2012
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Status of selected physicochemical properties of soils under different land use systems of Western Oromia, Ethiopia

Achalu Chimdi, Heluf Gebrekidan, Kibebew Kibret, Abi Tadesse
J. Bio. Env. Sci.2( 3), 57-71, March 2012.
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Abstract

Land use change particularly from natural ecosystem to agricultural lands in general and to crop cultivation under poor management practices in particular are among the major causes of decline in soil fertility followed by land degradation and low agricultural productivity. Achieving scientific information thereof is vital for planning management strategies; this study assessed the effects of land use on soil physicochemical properties describing soil fertility under three land use types (natural forest, grazing and cultivated land) in Guto Gida District of Oromia Region, Western Ethiopia. The natural forest land was used as a control to assess status of soil properties resulting from the shift of natural forest to other land uses. Disturbed and undisturbed surface soil samples (0 -20 cm) were collected from each land use type and examined for their analysis of soils physicochemical properties. The study pointed out the difference between different land use type on soil water content, pH, Cation exchange capacity (CEC), organic carbon (OC), total nitrogen (TN), available phosphorus (P), and exchangeable bases. Correlation analysis also showed highly significant and insignificantly positive relationship of soil pH with exchangeable Mg2+ and Ca2+ ions but significantly with extractable Fe3+, Mn2+ ions and PAS of the soils among the land uses. Relative to forest land, when the percent OC contents in cultivated and grazing lands depletedrespectively, by 54.62 and 49.89%, the percent Al saturation in cultivated land increased by 65.62% and 28.57% in grazing land. Land use changes also caused a decline in CEC, PBS, exchangeable bases and increased BD and Clay content exhibited poor soil physical conditions and deterioration of soil fertility.

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Abbasi MK, Zafar M, Khan SR. 2007. Influence of different land-cover types on the changes of selected soil properties in the mountain region of Rawalakot Azad Jammu and Kashmir. Nutrient Cycling in Agroecosystems 78, 97-110.

Alvarez R, Alvarez CR. 2000. Soil organic matter pools and their associations with carbon mineralization kinetics. Soil Science Society of American Journal 64(1), 184-189.

Baligar VC, Pitta GVE, Gamma EEG, Schafter RE, Filho AF, Clark RB. 1997. Soil acidity effects on nutrient use efficiency in exotic maize genotypes. Plant and Soil 192, 9-13.

Barthès B, Albrecht A, Asseline J, De Noni G, Roose E. 1999. Relationships between soil erodibility and topsoil aggregate stability of carbon content in a cultivated Mediterranean highland (Avey ron, France). Communication in Soil Science and Plant Analysis 30(13-14), 1929-1938.

Black CA. 1965. Methods of soil analysis, Part II. American Society of Agronomy, Maidson, Wiscosin, USA.

Bohn HL, McNeal BL, Oconnor GA. 2001. Soil Chemistry. 3rd edition, John Willey and Sons Inc. New York.

Bremner JM, Mulvaney CS. 1982. Nitrogen-total. In: Page, A. L., Miller, R. H. and Keeney, D.R.(eds). Methods of soil analysis, Vol.2. American Society of Agronomy, Madison, Wiscosin, p. 595-624. Caron J, Kay BD, Perfect E. 1992. Short-term decrease in soil structural stability following brome grass establishment on a clay loam. Soil and Tillage Research 25, 167-185.

Celik I. 2005. Land use effects on organic matter and physical properties of soil in southern Mediterranean highland of Turkey. Soil and Tillage Research 83, 270-277.

Dawit S, Fritzsche F, Tekalign M, Lehmann J, Zech W. 2002b. Phosphorus forms and dynamics as influenced by land use changes in the sub-humid Ethiopian highlands. Geoderma 105, 21-48.

Day PR. 1965. Hydrometer method of particle size analysis. pp. 562-563. In: C.A. Black (Ed.). Methods of Soil Analysis. Agronomy Part I, No. 9. American Society of Agronomy, Madison, Wisconsin, USA.

Dekimpe CR, Laverdiere MR, Martel YA. 1979. Surface area and exchange capacity of clay in relation to the mineralogical composition of gleysolic soils. Canadian Journal of Soil Science 59(4). 341-347.

Devis J, Freitans F. 1984. Physical and chemical methods of soil and water analysis, Food and Agriculture Organization. Soil Bulletin No.10, Rome, Italy, 275-289.

Dipark-Sakar. 2003. Physical and chemical methods of soil analysis. 2ndedition, Department of Plant and Soil Science, New Dehil, p. 53.

Dudal R, Decaers J. 1993. Soil organic matter in relation to soil productivity. p. 377-380. In: Mulongoy J. and R. Marks (Eds.). Soil organic matter dynamics and sustainability of tropical agriculture. Proceeding of international symposium organized by the laboratory of soil fertility and soil biology, Ktholeke University Leuven (K.U. Leuven) and the International Institute of Tropical Agriculture (IITA) and Held in Leuven, Belgium, 4-6 November 1991. John Wiley and Sons Ltd., UK.

Ebtisam I, Dardiry El. 2007. Soil available water as affected by some soil physicochemical properties in salt affected soils. Australian Journal of Basic and Applied Sciences 1, 220-225.

Emerson WW. 1995. Water retention, organic carbon and soil texture. Australian Journal of Soil Research 33, 241–251.

Eylachew Z. 1999. Selected physical, chemical and mineralogical characteristics of major soils occurring in Chercher highlands, Eastern Ethiopia. Ethiopian Journal of Natural Resource 1(2), 173-185.

FAO (Food and Agriculture Organization). 1986. Ethiopian highland reclamation study: Final Report (Volume I and II). FAO, Rome.

FAO (Food and Agriculture Organization). 2006. Plant nutrition for food security: A guide for integrated nutrient management. FAO, Fertilizer and Plant Nutrition Bulletin 16, Rome.

Fite G, Abdenna D, Wakene N. 2007. Utilization of diversity in land use systems: Sustainable and organic approaches to meet human needs. Tropentag, October 9-11, 2007. Witzenhausen, Germany.

Frossard E, Condron LM, Oberson A, Sinaj S, Fardeau JC. 2000. Processes governing phosphorus availability in temperate soils. Journal of Environmental Quality 29, 15-23.

Geissen V, Sánchez-Hernández R, Kampichler C, Ramos-Reyes R, Sepulveda-Lozada A, Ochoa-Goana S, de Jong BHJ, Huerta-Lwanga E, Hernández-Daumas S. 2009. Effects of land-use change on some properties of tropical soils: An example from Southeast Mexico, Geoderma 15, 87-97.

Hajabbasi MA, Jalalian A, Karimazadeh HR. 1997. Deforestation effects on soil physical and chemical properties, Lordegan, Iran. Plant and Soil 190, 301-308.

Han FX, Kingery WL, Hargreaves JE, Walker TW. 2007. Effects of land use on solid-phase distribution of micronutrients in selected Vertisols of the Mississippi Delta. Geoderma 142, 96-103.

Hazelton P, Murphy B. 2007. Interpreting soil test results: What do all the numbers mean? 2nd Edition. CSIRO Publishing. p. 152.

He ZL, Alva AK, Calvert DV, Li YC, Banks DJ. 1999. Effects of nitrogen fertilization of grapefruit trees on soil acidification and nutrient availability in Riviera fine sand. Plant and Soil 206, 11-19.

Heluf G, Wakene N. 2006. Impact of land use and management practices on chemical properties of some soils of Bako area, Western Ethiopia. Ethiopian Journal of Natural Resources 8, 177-197.

Jaiyeoba IA. 2003. Changes in soil properties due to continuous cultivation in Nigerian semiarid savannah. Soil and Tillage Research 70, 91-98.

Jones JB. 2003. Agronomic Handbook: Management of crops, soils, and their fertility. CRC Press LLC, Boca Raton, Florida, USA. 482.

Klute A, Dirksen C.1986. Hydraulic conductivity and diffusivity: Laboratory Models. In a Klute edition. Methods of Soil Analysis, part1, 2nd edition, Agronomy. Monogr. 687-734.

Koutika LS, Bartoli F, Andreux F, Cerri CC, Burtin G, Choné T, Philippy R. 1997. Organic matter dynamics and aggregation in soil under rain and pastures of increasing age in the eastern Amazon Basin. Geoderma 76, 87-112.

Lal R. 1996. Deforestation and land use effects on soil degradation and rehabilitation in western Nigeria. Soil physical and hydrological properties. Land Degradation and Development 7, 19-45.

Landon JR. 1991. Booker tropical soil manual: A Handbook for soil Survey and agricultural land evaluation in the tropics and subtropics. Longman Scientific and Academic Press, Inc. San Diego. 413.

Li XG, Li FM, Zed R, Zhan ZY, Singh B. 2007. Soil physical properties and their relations to organic carbon pools as affected by land use in alpine pastureland. Geoderma 139, 98-105.

Lindsay WL, Norvell WA.1978. Development of a DTPA soil test for zinc, iron, manganese and copper. Soil Science Society of America Journal 42, 421-428.

Mandiringana OT, Mnkeni PNS, Mkile Z, Averbeke V, Ranst W, Verplanke EV. 2005. Mineralogy and Fertility status of selected soils of the Eastern Cape province, South Africa. Communications in Soil Science and Plant Analysis 36, 2431-2446.

Michel KY, Angui KT, Souleymane K, Jerome T, Yao T, Luc A, Danielle B. 2010. Effects of land use types on soil organic carbon and nitrogen dynamics in Mid-West Côte d’Ivoire. European Journal of Scientific Research 40, 211-222.

Mishra BB, Heluf G, Kibebew K. 2004. Soils of Ethiopia: Perception appraisal and constraints in relation to food security. Journal of Food, Agriculture and Environment 2(3&4), 269-279.

MOA (Ministry of Agriculture). 1998. Agro-ecological zones of Ethiopia, Natural Resources Management and Regulatory Department, Addis Ababa, Ethiopia.

Oguike PC, Mbagwu JSC. 2009. Variations in some physical properties and organic matter content of soils of coastal plain sand under different land use types. World Journal of Agricultural Sciences 5, 63-69.

Ogunkunle AO, Eghaghara OO. 1992. Infulences of land use on soil properties in a forest region of south Nigeria. Soil use and managements 8, 121-125.

Patil RB, Prasad J. 2004. Characteristics and classification of some sal (Shorea robusta) supporting soils in Dindori district of Madhya Pradesh. Journal of Indian Society Soil Science 52, 119 –125.

Paulos D. 1996. Availability of phosphorus in the coffee soil of southwest Ethiopia. pp. 119-129. In: Tekalign Mamo and Mitiku Haile (Eds.).Soil: The Resource Base for Survival. Proceeding of the Second Conference of the Ethiopian Society of Soil Science (ESSS), 23-24 September 1993, Addis Ababa, Ethiopia.

Rowell DL. 1994. Soil science: Methods and application, Addison Wesley Longman, Limited, England.

SAS (Statistical Analysis System), 2004. SAS/STAT user’s guide. Proprietary software version 9.00. SAS Inst., Inc., Cary, NC.

Shishir P, Sah J. 2003. Physicochemical characteristics of soil in tropical sal forests in eastern Nepal. Himalian Journals of Science 1, 107-110.

Sisti CPJ, Dos Santos HP, Kohhann R, Alves BJR, Urquiaga S, Boddey, RM. 2004. Change in carbon and nitrogen stocks in soil under 13 years of conventional or zero tillage in southern Brazil. Soil and Tillage Research 76, 39-58.

Soares JLN, Espindola CR, Pereira WLM. 2005. Physical properties of soils under Soil acidity effects on nutrient use efficiency in exotic maize genotypes. Plant and Soil 192, 9-13.

Stevenson FJ. 1994. Humus Chemistry: Genesis, Compositions, Reactions, 2nd edition, John Wiley & Sons, New York.

Tekalign M, Haque I.1987. Phosphorus status of some Ethiopian soils. I. Sorption characteristics. Plant and Soil 102, 261-266.

Tekalign T. 1991. Soil, plant, water, fertilizer, animal manure and compost analysis. Working Document No. 13. International Livestock Research Center for Africa, Addis Ababa.

Wakene N, Heluf G. 2003. Forms of phosphorus and status of available micronutrients under different land use systems of Alfisols in Bako areas of Ethiopia. Ethiopian Journal of Natural Resources 5, 17-37.

Walkley A, Black CA. 1934. An examination of the degrjareff method of determining soil organic matter and a proposed modification of chromic acid titration method. Soil Science 37, 29-38.

Woldeamlak B, Stroosnijder L. 2003. Effects of agro-ecological land use succession on soil properties in the Chemoga watershed, Blue Nile basin, Ethiopia. Geoderma 111, 85- 98.

Wondwosen T,  Sheleme B. 2011. Identification of growth limiting nutrients in Alfisols : Soil physicochemical properties, nutrient concentration and biomass yields of maize. American Journals of Plant Nutrition and Fertilization Technology 1, 23-35.