Response of barley to liming of acid soils collected from different land use systems of Western Oromia, Ethiopia

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Research Paper 01/07/2012
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Response of barley to liming of acid soils collected from different land use systems of Western Oromia, Ethiopia

Achalu Chimdi, Heluf Gebrekidan, Kibebew Kibret, Abi Tadesse
J. Bio. Env. Sci.2( 7), 1-13, July 2012.
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Abstract

Barley (Hordeum vulgare L.) is one of the acid soil sensitive but genetically diverse cereal crop in Ethiopia. A green house pot experiment was conducted to assess the response of barley variety (HB-1307) grown on acid soils to application rates and particle sizes of lime. The study employed a randomized complete block design of three-way factorial arrangement of three land use types (forest, grazing and cultivated lands), six rates of lime (0, 2, 4, 6, 8 and 10 tons ha-1) and two particle sizes (50 and 100 mesh) of lime in three replications. Plant height, fresh and dry biomass, grain yield, harvest index and plant P uptake were measured and subjected to analysis of variance using SAS software to evaluate the treatment effects. Maximum mean barley yield components for both 50 and 100 mesh lime particle sizes (LPS) were obtained at 6 t ha-1 of lime rate on the forest land followed by 8 and 10 t ha-1, respectively, on grazing and cultivated lands. The mean square estimate revealed highly significant (P < 0.001) between lime rates and land uses on barley height, fresh and dry biomass, harvest index and P uptake whilst it showed an insignificant (P > 0.05) interaction effects between lime rates and lime particle sizes. There was significant ( P< 0.05) interactions between lime rates, lime particle sizes and land use types on barley height, dry biomass and harvest index while insignificant (P > 0.05) on fresh biomass, grain yields and harvest index. The study showed, plant height, fresh and dry biomass increased due to liming of acidic soils of the three different land uses. However, response pattern of these traits to varying lime application rates varied from one land use to the other.

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Achalu C, Heluf G, Kibebew K, Abi T. 2012. Status of selected physicochemical properties of soils under different land use systems of Western Oromia, Ethiopia, Journal of Biodiversity and Environmental science 2(3), 57-71.

Adugna N. 1984. The effect of lime and phosphorus on the dry matter and grain yield of bread wheat (Triticum aestivum L.) grown on red soils of Ghimbi and Nedjo Woredas of Wollega region, Western Ethiopia. MSc Thesis, Addis Ababa University, Ethiopia.

Anderson B, Zue Q, Newman R, Newman W. 1991. Serum lipid concentrations of chickens fed diets with flour or red dog from different types of glacier barley. Barley Genetics 6, 461-465.

Baghizadeh A, Taleei AR, Naghavi MR. 2007. Quantitative traits of loci analysis for some agronomic traits in barley (Hordeum vulgare L.). International Journal of Agriculture and Biology 9(2), 372-374.

Berhane L, Hailu G, Fekadu A. 1996. Barley production and research. pp.1-377 In: G. Hailu and J. van Leur (eds.). Barley Research in Ethiopia. Past Work and Future Prospects. Proceedings of the First Barley Review Workshop, 16- 19 October 1993, IAR, Addis Ababa. IAR/ICARDA.

CSA  (Central    Statistical    Authority),   2009. Agricultural sample survey for 2008/2009: Report on Area and Production of Crops (Private Peasant Holdings, Meher Season). Statistical Bulletin. FDRE/CSA, Addis Ababa, Ethiopia.

Conyers MK, Mullen CL, Scott BJ, Poile GJ, Braysher BD. 2003. Long-term benefits of limestone applications to soil properties and to cereal crop yields in southern and central New South Wales. Australian Journal of Experimental Agriculture 43, 71-78.

Curtin D, Syres JK. 2001. Lime-induced changes in indices of soil phosphate availability, Soil Science Society of American Journal 65, 147-152.

Daniel P, Schachtman R, Reid J, Ayling SM. 1998. Phosphorus uptake by plants: from soil to cell. Plant Physiology 116, 447-453.

Eduardo FC, Luis RF, Michel AC, Gabriel B. 2005. Surface application of lime for crop grain production under a no-till system.,Agronomy Journal 97, 791-798.

FAO/UNESCO (Food and Agriculture Organization/United Nations Education, Scientific and Cultural Organization), 1990. Soil map of the world: Revised legend. World Soil Resource Report 60. FAO, 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.

Getaneh W. 2007. The barley leaf rust in the highlands of Ethiopia: Significance, virulence spectrum and sources of partial resistance. PhD Dissertation, Haramaya University, Ethiopia.

Haynes JR, Mokolobate MS. 2001. Amelioration of Al toxicity and P deficiency in acid soils by additions of organic residues: A critical review of the phenomenon and the mechanisms involved. Nutrient Cycling in Agroecosystems 59, 47-63.

Haynes JR. 1984. Lime and phosphate in the soil plant system. Advances in Agronomy 37, 249-315.

Holford ICR. 1997. Soil phosphorus: its measurement and its uptake by plants. Australian Journal of Soil Research 35, 227-239.

Ito K, Takahashi T, Nanzyo M. 2009. Aluminum toxicity of synthetic aluminum–humus complexes derived from non-allophanic and allophanic Andosols and its amelioration with allophanic materials.,Soil Science and Plant nutrition 55, 35-41.

Kettering QM, Albrecht G, Beckham JEN. 2005. Agronomy Fact Sheet Series 5. Cornel University, College of Agriculture and Life Science, Department of Crop and Soil Science, Nutrient Analysis Laboratory, Ithaca, NY.

Martin, JH, Walden RP, Stamp DL. 2006. Principles of Field Crops production. Pearson Education, Inc., USA.

Oats KM, Kamprath EJ. 1983. Soil acidity and liming: I. Effect of the extracting solution cation and pH on the removal of aluminum from acid soils. Soil Science Society of American Journal 47, 686-689.

Ofosu-Anim J, Leitch M. 2009. Relative efficacy of organic manures in spring barley (Hordeum vulgare L.) production. Australian Journal of Crop Science 3(1), 13-19.

Oguntoyinbo FI, Aduayi EA, Sobulo RA. 1996. Effectiveness of some local liming materials in Nigeria as ameliorant of soil Journal of Plant Nutrition 19, 999-1016.

Oliveira EL, Pavan MA. 1996. Control of soil acidity in no-tillage system for soybean production. Soil Tillage Research 38, 47-57.

Oluwatoyinbo FI, Akande MO, Adediran JA. 2005. Response of Okra (Abelmoschus esculentus) to lime and phosphorus fertilization in an acid soil. World Journal of Agricultural Sciences 1(2), 178-183.

Paulos D. 2001 Natural Resource Management, Human Development, and Macroeconomic Performance in Ethiopia. Northeast African Studies 8(1), 27-52.

Sanchez PA, Logan TJ. 1992. Myths and science about the chemistry and fertility of soils in the tropics. pp.35-46, In: R. Lal and P.A. Sanchez (Eds.). Myths and Science of Soils of the Tropics. Soil Science Society of American Journal Special Publication, No. 29. North Carolina State University Raleigh, North Carolina

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

Scott BJ, Ridley AM, Conyers MK. 2000. Management of soil acidity in long term pastures of south eastern Australia. Australian Journal of Experimental Agriculture 40, 1173-1193.

Taye B. 2001. Developing alternative for barley cropping system in western Shewa. Annual Report. Holetta Agricultural Research Center, Holetta, Ethiopia.

Taye B, Yeshanew A, Balesh T, Girma G. 1996. Soil fertility management in barely. pp 92-98. In: Hailu Gebrie and Joop Van Luers (eds). Barely Research in Ethiopia: Past Work and Future Prospects. Proceeding of the First Barely Research Review Workshop, 16-19 October 1993, IAR, Addis Ababa: IAR/ICARDA, Ethiopia.

Thomas GW, Hargrove WL. 1984. The chemistry of soil acidity. pp. 3-56. In: Adams, F. (ed.). Soil Acidity and Liming. American Society of Agronomy, Inc., Madison, WI, USA.

Woldeyesus S, Ralph G, Anton E. 2004. Genotypic variation for nitrogen use efficiency in Ethiopian barley. Field Crops Research 85, 43-60.

Zemede A. 2002. The barley of Ethiopia. pp. 77-108. In: Stephen B. Brush (Ed.). Genes in the Field: On-Farm Conservation of Crop Diversity. IDRC/IPGRI, Lewis Publishers, Boca Raton.