Evaluating the effects of different planting densities and inoculation with Rhizobium bacteria on morphological characteristics and yield of faba bean (cv.Barakat)

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Research Paper 01/07/2013
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Evaluating the effects of different planting densities and inoculation with Rhizobium bacteria on morphological characteristics and yield of faba bean (cv.Barakat)

Narges Alipour, GolamAli Akbari, Zahra Fakharian Kashani, MoradMohammadi
Int. J. Biosci. 3(7), 42-48, July 2013.
Copyright Statement: Copyright 2013; The Author(s).
License: CC BY-NC 4.0

Abstract

Among legumes, Faba beans due to having proteins and essential amino acids and the ability of nitrogen fixation and symbiosis with Rhizobium bacteria, have high importance in terms of food and environmental effects. Growth and yield of Faba beans, like other crops, are functions of environmental factors and plant genotype. The experiment was conducted in the field area of300sq.m.ina completely randomized block design with split plots (split-plot) in three replications in the fall of 2009. Planting density, as the main factor of the test, has three levels: 1) A1: density of 100,000 plants per hectare (20 cm row plant spacing), 2) A2: density of 50,000 plants per hectare (40 cm row plant spacing), 3) A3: density of 25,000 plants per hectare (60 cm row plant spacing). Also the sub-factor of the experiment has 2 levels: 1) B1: seed not inoculated with bacteria, 2) B2: seed inoculated with bacteria. The results show that an increase in bush density causes a significant increase in total dry matter production per unit area, but in contrast, total dry matter per plant reduced due to high competition. Also, it was observed that Fababean seed inoculation with bacteria before sowing had a positive and significant effect on bush height, grain weight, grain filling of pods, number of pods, length and width of pods, reduction of flowers` fall and traits associated with yield and yield components. The study of the interactive effect of planting density and bacteria on Faba bean indicated that bean bushes containing seeds with bacteria and spacing 20 cm between plants on the row (a1b2) showed best results in terms of yield and yield components, bush height, plant growth.

Abdalla MMF. 1979. The origin and evolution of Vicia Faba L., in Proc. 1st.Mediterranean Conf. Genet. 713.

Ajam Norouzi H, Soltani A, Majidi E, Homaee M. 2007. Modeling the reaction of Faba bean germination to temperature in field conditions. Journal of Agricultural Sciences and Natural Resources 14(4).

Atsushi T, Toshinori K, Miwako A, Ken-ichiro S. 2006. Protein phosphatase 1 positively regulates stomatal opening in response to blue light in Vicia Faba. The National Academy of Sciences of the USA 36, 13549–13554 http://dx.doi.org/10.1073/pnas.0602503103 pp.13549-54

FAO. 2010. Food and Agriculture Organization of the United Nation Quarterly Bulletin of Statistic, Rom, Italy.

Feredrick GR, Marshall HG. 1985. Grain yield and yield components of soft red winter wheat as affected by management practices. Agronomy Journal 77, 495-499.

Gisele L, Philippe L, Marie-Reine A, Noelle A. 2003. Compatibility of Rhizobial Genotypes within Natural  Populations  of  Rhizobium  leguminosarum Biovarviciae for Nodulation of Host Legumes 69(4), 2276-2283 http://dx.doi.org/10.1128/AEM.69.4.2276-2283.2003

John D, Mahon. 1979. Environmental and Genotypic Effects on the Respiration Associated With Symbiotic Nitrogen Fixation in Peas 63, 892-897.

Jones HG. 1992. Plant and microclimate 2nd edition. A quantitative approach to environment plant physiology. Cambridge university press, Cambridge.

Khosravi H, Ramezanpour MR. 2004. Exploring the effects of some Rhizobium inoculants on the growth of Faba bean in Mazandaran. Journal of Soil and Water Sciences 18(2), 146-152 pages.

Martin K, J Allan Downie. 2008. Identification of protein secretion systems and novel secreted proteins in Rhizobium leguminosarum bv. Viciae. Genomics 9, 55 http://dx.doi.org/10.1186/1471-2164-9-55

Vargas MA, Menddes TLC, Hungria M. 2000. Response of field-grown bean to Rhizobium inoculation and nitrogen fertilization in two Cerrados. Biology and Fertility of Soils 32, 228-233. http://dx.doi.org/10.1007/s003740000240p.228-233

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