Nutrient deficiencies in alkaline soils (pH 7.9–8.5) frequently limit plant growth due to insufficient nutrient availability and uptake. This study investigated the effects of two bacterial strains, VITK-1 ( Pseudomonas sp.) and VITK-3 ( Burkholderia sp.), on nutrient absorption, growth, and gene expression in tomato ( Solanum lycopersicum ) seedlings grown in alkaline soil. Bacterial treatments were applied individually and as a consortium, and their ability to promote plant growth and nutrient solubility was evaluated. In vitro studies demonstrated the strains’ ability to solubilize essential nutrients, generate extracellular enzymes, and exhibit a variety of Plant Growth-Promoting Rhizobacteria (PGPR) characteristics, with strong antagonistic activity against Fusarium oxysporum f. sp. lycopersici and Ralstonia solanacearum (35.7%–76.5%). In vivo investigations revealed notable improvements in germination (73.3%), root and shoot development, and overall seedling vigor when compared to untreated controls. The bacterial consortium significantly improved protein (54.5%) and proline (69.5%) levels, antioxidant activity (50.7%), phenolic (60.9%), and flavonoid content (52.5%), and decreased carbohydrate accumulation. Furthermore, treated plants exhibited activation of nutrient-regulating genes ( NRT2 , PR-1 , and AMT-1 ) associated with better root metabolism (improved 1.58–1.70 mg) and resilience to stress ( GR-1 and DREB3 ). These results show the potential of PGPR inoculants, particularly consortia, as a promising strategy for improving nutrient uptake, biochemical characteristics, and stress tolerance in crops grown in alkaline soils.
Rangasamy et al. (Thu,) studied this question.