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Effect of Different Methods of Soil Fertility on Grain Yield and Chickpea Quality
Abstract:In order to evaluation the effects of natural, biological and chemical fertilizers on grain yield and chickpea quality, field experiments were carried out in 2007 and 2008 growing seasons. In this research the effects of different organic, chemical and biological fertilizers were investigated on grain yield and quality of chickpea. Experimental units were arranged in split-split plots based on randomized complete blocks with three replications. The highest amounts of yield and yield components were obtained in G1×N5 interaction. Significant increasing of N, P, K, Fe and Mg content in leaves and grains emphasized on superiority of mentioned treatment because each one of these nutrients has an approved role in chlorophyll synthesis and photosynthesis ability of the crop. The combined application of compost, farmyard manure and chemical phosphorus (N5) had the best grain quality due to high protein, starch and total sugar contents, low crude fiber and reduced cooking time.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1083469Procedia APA BibTeX Chicago EndNote Harvard JSON MLA RIS XML ISO 690 PDF Downloads 2131
 Al-Jaloud AA., Gh. Hussian., S. Karimulla., and AH. Al-Hamidi, 1996. Effect of irrigation and nitrogen on yield and yield components of two rapeseed cultivars. Agricultural Water Management 30: 57-68.
 Alagawadi AR., and AC. Gaur, 1988. Associative effect of rhizobium and phosphate-solubilizing bacteria on the yield and nutrient uptake of chickpea. Plant Soil 105: 241-246.
 AOAC, 1990. In K. Helrich (Ed.), Official methods of analysis (15th ed.). Arlington, VA/Washington, DC, USA: Association of Official Analytical Chemists.
 Bennett JW., and SD. Lane, 1992. The potential role of Trichoderma viride in the integrated control of Botrytis fabae. Mycologist 6, 199-201.
 Berry PM., R. Sylvester-Bradley., L. Phillips, DJ. Hatch., S. Cuttle., F. Raynes., and P. Gosling, 2002. Is the productivity of organic farms restricted by the supply of available nitrogen? Soil Use and Management 15: 137-143.
 Bremner JM, 1996. Nitrogen-total. In: Sparks, D.L., et al. (Eds.), Chemical Methods. Part 3. SSSA BOOK Series. SSSA, ASA, Madison, WI, USA, pp. 1085-1121.
 Chen G., H. Zhu., and Y. Zhang, 2003. Soil microbial activities and carbon and nitrogen fixation. Research in Microbiology 154: 393-398.
 Dahnke WC., and RA. Olsen, 1990. Soil test correlation, calibration, and recommendation. p. 45-72. In R.L Westerman et al. (ed.) Soil testing and plant analysis, 3rd ed. SSSA Book Ser. 3. SSSA, Madison, WI.
 Doran JW., and MS. Smith, 1987. Organic matter management and utilization of soil and fertilizer nutrients. In: Follett et al. (Eds.), Soil Fertility and Organic Matter as Critical Components of Production Systems. SSSA Spec. Pub. 9. SSSA, Madison, WI, pp. 53-72.
 Doran JW., DG. Fraser., MN. Culik., and WC. Liebhardt, 1988. Influence of alternative and conventional agricultural management on soil microbial process and nitrogen availability. Am. J. Alternative Agric. 2: 99-106.
 Dordas CA., and C. Sioulas, 2008. Safflower yield, chlorophyll content, photosynthesis, and water use efficiency response to nitrogen fertilization under rainfed conditions. Industrial Crops and Products 27: 75-85.
 El-Baruni B., and SR. Olsen, 1979. Effect of manure on solubility of phosphorus in calcareous soils. Soil Science 128, 219-225.
 El-Komy HMA, 2005. Coimmobilization of A. lipoferum and B. megaterium for plant nutrition. Food Technology and Biotechnology 43 (1), 19-27.
 Elfstrand S., B. Ba and M. Rtensson, 2007. Influence of various forms of green manure amendment on soil microbial community composition, enzyme activity and nutrient levels in leek. Applied Soil Ecology 36:70- 82.
 Eriksen J, 2005. Gross sulphur mineralization-immobilization turnover in soil amended with plant residues. Soil Biol. Biochem 37, 2216-2224.
 Gao SJ., SS. Chen, and MQ. Li, 1989. Effects of phosphorus nutrition on photosynthesis and photorespiration in tobacco leaves. Acta Phytophysiol Sinica 15:281-287.
 Guidi L., M. Pallini, and GF. Soldatini, 1994. Influence of phosphorus deficiency on photosynthesis in sunflower and soybean plants. Agrochim 38:211-223.
 Hatch DJ., G. Goodlass., A. Joynes and MA. Shepherd, 2007. The effect of cutting, mulching and applications of farmyard manure on nitrogen fixation in a red clover grass sward. Bioresource Technology 98: 3243- 3248.
 Huisman J., and AF. Vander Poel, 1994. Aspects of the nutritional quality and use of cool season food legumes in animal feed. In F. J. Muehlbauer and W. J. Kaiser (Eds.), Expanding the production and use of cool season food legumes (pp. 53-76). Dordrecht: Kluwer Academic Publishers.
 Kaur M., N. Singh and NS. Sodhi, 2005. Physicochemical, cooking, textural and roasting characteristics of chickpea (Cicer arietinum L.) cultivars. Journal of Food Engineering 69: 511-517.
 Kumar RN., and KG. Mukerji, 1996. Integrated disease management future perspectives. In: Mukerji, K.G., Mathur, B., Chamola, B.P., Chitralekha, C. (Eds.), Advances in Botany, APH publishing Corp, New Delhi, pp. 335-347.
 Little TM., and FC. Hills, 1978. Agricultural experimentation. John Wiley and Sons Inc, U.S.A.
 Jain PC., PS. Kushawaha., US. Dhakal., H. Khan., and SM. Trivedi, 1999. Response of chickpea (Cicer arietinum L.) to phosphorus and biofertilzier. Legume Research 22: 241-244.
 Jackson ML, 1973. Soil chemical analysis. Prentice Hall of India Pvt. Ltd., New Delhi.
 Jutur PP and AR. Reddy, 2007. Isolation, purification and properties of new restriction endonucleases from Bacillus badius and Bacillus lentus. Microbiological Research 162: 378-383.
 Manjunath A., and DJ. Bagyaraj, 1984. Response of pigeon pea and cowpea to phosphorus and dual inoculation with vesicular arbuscular Mycorrhiza and Rhizobium. Trop. Agric. (Trinidad) 61, 48-52.
 McLeod E, 1982. Feed the Soil. Organic Agriculture Research Institute, Graton, California. 209 p.
 O-Sullivan DJ., and D. O-Gara, 1992. Trails of fluorescent Pseudomonas spp. involved in suppression of plant root pathogens. Microbiological Review 56: 662-676.
 Pandey RK., JW. Maranville and MM. Chetima, 2000. Deficit irrigation and nitrogen effects on maize in a Sahelian environment II. Shoot growth, nitrogen uptake and water extraction. Agricultural Water Management 46: 15-27.
 Parmar N., and KR. Dadarwal, 1999. Stimulation of nitrogen fixation and induction of flavonoid-like compounds by rhizobacteria. J. Appl. Microbiol 86: 36-64.
 Power JF, 1990. Use of green manures in the Great Plains. In: Havlin, J.L., Jacobsen, J.S. (Eds.), Proceedings of the Great Plains Soil Fertility Conference, Denver, CO. 6-7 March. Kansas State University, Manhattan, KS, pp. 1-18.
 Rajendran G., F. Sing., AJ. Desai., and V. Archana, 2008. Enhanced growth and nodulation of pigeon pea by co-inoculation of Bacillus strains with Rhizobium spp. Bioresource Technology 99: 4544-4550.
 Ravindra KC., K. Venkatesan., T. Balasubramanian., and V. Balakrishnan, 2007. Effect of halophytic compost along with farmyard manure and phosphor bacteria on growth characteristics of Arachis hypogaea Linn. Science of the Total Environment 384: 333-341.
 Rong L., JJ. Volenec., BC. Joern., and SM. Cunningham, 1996. Seasonal changes in nonstructural carbohydrates, protein, and macronutrient in roots of alfalfa, red clover, sweet clover, and birds foot trefoil. Crop Science 36: 617-623.
 Rosas SB, GA. Andres., M. Rovera and NS. Correa, 2006. Phosphatesolubilizing Pseudomonas putida can influence the Rhizobia legume symbiosis. Soil Biology and Biochemistry 38: 3502-3505.
 Rudresh DL., MK. Shivaprakash., and RD. Prasad, 2005. Effect of combined application of rhizobium, phosphate solubilizing bacterium and Trichoderma spp. on growth, nutrient uptake and yield of chickpea (Cicer aritenium L.). Applied Soil Ecology 28: 139-146.
 Ryan J., M. Pala., S. Masri., M. Singh and H. Harris, 2008. Rainfed wheat-based rotations under Mediterranean conditions: Crop sequences, nitrogen fertilization, and stubble grazing in relation to grain and straw quality. European Journal of Agronomy 28: 112-118.
 Sahni S., BK. Sarma, DP. Singh., HB. Singh and KP. Singh, 2008. Vermicompost enhances performance of plant growth-promoting rhizobacteria in Cicer arietinum rhizosphere against Sclerotium rolfsii. Crop Protection 27: 369-376.
 Sattar MA., and AC. Gaur, 1987. Production of Auxins and Gibberellins by phosphate dissolving microorganisms. Zentralbl. Mikrobiol 142: 393- 395.
 Sefa-Dedah S., and DW. Stanley, 1979. Textural implications of the microstructure of legumes. Food Technology 33: 77-83.
 Singh U, 1999. Cooking quality of pulses. Journal of Food Science and Technology 36: 1-14.
 Siavashi K., R. Soleimani., and MJ. Malakouti, 2004. Effect of zinc sulfate application times and methods on grain yield and protein content of chickpea in rainfed conditions. Iranian Journal of Soil and Water Sciences 18:37-44.
 Verma M., SK. Brar., RD Tyagi., RY. Surampalli and JR. Val'ero, 2007. Antagonistic fungi, Trichoderma spp.: Panoply of biological control. Biochemical Engineering Journal 37: 1-20.
 Veneklaas EJ., J. Stevens., GR. Cawthray., SM. Turner., AM. Grigg., and H. Lambers, 2003. Chickpea and white lupin rhizosphere carboxylates vary with soil properties and enhance phosphorus uptake. Plant and Soil 248: 187-197.
 Vinale F., K. Sivasithamparam., EL. Ghisalberti., SL. Woo and M. Lorito, 2008. Trichoderma-plant-pathogen interactions. Soil Biology and Biochemistry 40: 1-10.
 Wang D., P. Marschner., Z. Solaiman., and Z. Rengel, 2007. Growth, P uptake and rhizosphere properties of intercropped wheat and chickpea in soil amended with iron phosphate or phytate. Soil Biology and Biochemistry 39: 249-256.
 Windham MT., Y. Elad., and R. Baker, 1986. A mechanism for increased plant growth induced by Trichoderma spp. Phytopathology 76: 518-521.
 Williams PC., H. Nakoul., and KB. Singh, 1983. Relationship between cooking time and some physical characteristics in Chickpea (Cicer arietinum L.). Journal of Science of Food and Agriculture 34: 492-496.
 Zeng X., Y. Li., Y. Sun., Y. Hong., J. Liu., X. Xiang., and K. Wang, 2007. Determination of free sugars by high performance liquid chromatography. Chinese Journal of Analytical Chemistry 35: 930-938.