Molecular identification of rhizobacterial isolates from Prosopis limensis and their effect on the growth of Raphanus sativus under salt stress

Abstract: Soil salinity negatively affects the development of agricultural crops. The utilization of plant growth-promoting rhizobacteria is a biotechnological alternative to mitigate this problem. Rhizobacteria were isolated from the roots and rhizosphere of Prosopis limensis Bentham carob to identify them and determine their potential as plant growth-promoters under salt stress. First, ACC deaminase activity was determined in Dworkin & Foster (DF) minimum medium with 3.0 mM ACC as a source of nitrogen; besides, to… Show more

“…Generally, techniques used in microbial biotechnology are derived from the organic interactions found in ecosystems. Rhizobacteria, one type of bacteria that is particularly important for plant growth, offer agricultural crops a counterbalance to the detrimental effects of abiotic stress, such as those brought on by salinized environments [42]. Microbial communities have developed a variety of defences' mechanisms to address numerous environmental obstacles.…”

Acidic soil-tolerant tree species identification

“…Generally, techniques used in microbial biotechnology are derived from the organic interactions found in ecosystems. Rhizobacteria, one type of bacteria that is particularly important for plant growth, offer agricultural crops a counterbalance to the detrimental effects of abiotic stress, such as those brought on by salinized environments [42]. Microbial communities have developed a variety of defences' mechanisms to address numerous environmental obstacles.…”

Acidic soil-tolerant tree species identification