Synergistic Effect of Plant-Growth-Promoting Rhizobacteria Improves Strawberry Growth and Flowering with Soil Salinization and Increased Atmospheric CO2 Levels and Temperature Conditions

Biofertilization with plant-growth-promoting rhizobacteria (PGPR) can positively affect the growth and health of host plants and reinforce their tolerance of stressors. Here, we investigate the use of isolated PGPR consortia from halophytes to improve strawberry growth and flowering performance under saline and elevated CO2 and temperature conditions. Growth, flower bud production, and the photosynthetic apparatus response were determined in strawberry plants grown at 0 and 85 mmol L-1 NaCl and in two atmospheric CO2-temperature combinations (400/700 ppm and 25/+4 degrees C, respectively). Biofertilization improved strawberry plant growth and flower bud production, independently of salinity conditions, at ambient CO2 and 25 degrees C, while bacterial inoculation only had a positive effect on plant growth in the presence of salt in high CO2 and at +4 degrees C. Biofertilizers 1 and 3 generated the largest biomass of strawberries at 400 ppm CO2 and 0 and 85 mmol L-1 NaCl, respectively, while biofertilizer 1 did so in the presence of salt and in an atmosphere enriched with CO2 and at +4 degrees C. The effect of the consortia was mediated by bacterial strain PGP properties, rather than by an improvement in the photosynthetic rate of the plants. Furthermore, biofertilizers 1 and 2 increased the number of flower buds in the absence of salt, while biofertilizers 3 and 4 did so for salt-inoculated plants at 400 ppm CO2 and at 25 degrees C. There was no effect of inoculation on flower bud production of plants grown at high CO2 and at +4 degrees C. Finally, we concluded that the effect of bacterial inoculation on strawberry growth and flowering depended on the type of bacterial strain and growth conditions. This highlights the importance of developing studies considering stress interaction to assess the real potential of biofertilizers.

Automated summary

In this study, the effect of isolated PGPR consortia from halophytes on the growth and flowering performance of strawberry plants under saline and elevated CO2 and temperature conditions was investigated. The results showed that biofertilization improved strawberry plant growth and flower bud production, with the effect depending on the bacterial strain and growth conditions. The study highlights the importance of considering stress interaction when assessing the potential of biofertilizers.