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Role of plant growth promoting rhizobacteria and L-tryptophan on improvement of growth, nutrient availability and yield of wheat (Triticum aestivum) under salt stress

Tamoor-ul-Hassan, Asghari Bano

Department of Plant Sciences Quiad-i-Azam University, Islamabad 45320, Pakistan

Key words: PGPR, L-tryptophan, nutrient uptake, salt stress, Bacillus cereus.


071310200722sarkoyvg9During the present study Pseudomonas sp and Bacillus cereus isolated from rhizospheric soil of halophytic weeds of Khewra salt range were used as bioinoculant on wheat. Aqueous solution of tryptophan was added to the rhizospheric soil @1ug/L after seed germination. Experiment was conducted at Quaid-i-Azam University Islamabad in pots under sterilized condition. Electrical conductivity (EC) was maintained to 3.7 dsm-1 by applying 150mM NaCl twice (after 7 and 14d of seed germination). PGPR inoculation significantly decreased EC, pH, SAR, Na, and Cl contents and improved K, Ca, Mg, Fe, P, NO3 and organic matter contents of the rhizospheric soil. Tryptophan addition assisted the PGPR to further decrease the EC, SAR and improved nutrients uptake and growth. Tryptophan augmented the PGPR-induced increase in fresh weight, chlorophyll, proline and sugar contents. Superoxide dismutase and peroxidase activities of leaves of inoculated plants were also higher in the presence of tryptophan. Greater production of abscisic acid and Indole acetic acid were recorded in leaves of PGPR inoculated plants and addition of tryptophan augmented the phytohormone production in leaves of treated plants. Inoculation of PGPR alone and with tryptophan positively affected the yield of crop by improving seed establishment and number of seeds/spike.

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