Halotolerant native bacteria Enterobacter 64S1 and Pseudomonas 42P4 alleviate saline stress in tomato plants.

Autor: Pérez‐Rodriguez, María Micaela, Pontin, Mariela, Piccoli, Patricia, Lobato Ureche, Miguel Andrés, Gordillo, María G., Funes‐Pinter, Iván, Cohen, Ana Carmen
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Zdroj: Physiologia Plantarum; Jul2022, Vol. 174 Issue 4, p1-15, 15p
Abstrakt: Salinity is one of the principal abiotic stresses that limit the growth and productivity of crops. The use of halotolerant plant growth‐promoting rhizobacteria (PGPR) that increase the growth of salt‐stressed crops is an environmentally friendly alternative to promote plant yield under salinity. The aim of this study was to test native PGPR, isolated according to their tolerance to NaCl, and to evaluate their influence on morphological, physiological, and biochemical traits promoted by salt stress in tomato plants. Enterobacter 64S1 and Pseudomonas 42P4 were selected as the most efficient strains in terms of salt tolerance. Both strains were classified as moderately resistant to salinity (NaCl) and maintained their plant growth‐promoting activities, such as nitrogen fixation and phosphate solubilization, even in the presence of high levels of salt. The results of a greenhouse experiment demonstrated that PGPR inoculation increased root and shoot dry weight, stem diameter, plant height, and leaf area compared to control noninoculated plants under nonsaline stress conditions, reversing the effects of salinity. Inoculated plants showed increased tolerance to salt conditions by reducing electrolyte leakage (improved membrane stability) and lipid peroxidation and increasing chlorophyll quantum efficiency (Fv/Fm) and the performance index. Also, inoculation increased the accumulation of proline and antioxidant nonenzymatic compounds, such as carotenes and total phenolic compounds. The catalase and peroxidase activities increased with salinity, but the effect was reversed by Enterobacter 64S1. In conclusion, Enterobacter 64S1 and Pseudomonas 42P4 isolated from salt‐affected regions have the potential to alleviate the deleterious effects of salt stress in tomato crops. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index