Inoculation with Native Actinobacteria May Improve Desert Plant Growth and Survival with Potential Use for Restoration Practices.

Soil microorganisms, together with water, play a key role in arid ecosystems, being responsible for the nutrient cycle, facilitating nutrient incorporation into plants, influencing plant drought tolerance, and enhancing their establishment. Therefore, their use for restoration practices is promising. We tested the potential of native strains of Actinobacteria from Monte Desert as growth promoters of native vegetation, isolating them from two substrates from their habitat (bare soil and leaf-cutting ant refuse dumps). Strains were inoculated into the soil where seedlings of three native plant species (Atriplex lampa, Grindelia chiloensis, Gutierrezia solbrigii) were growing. Seedlings were grown following a full factorial design experiment under greenhouse and field conditions comparing native Actinobacteria effects with a known growth-promoting strain, Streptomyces sp. (BCRU-MM40 GenBank accession number: FJ771041), and control treatments. Seedlings survived greenhouse condition but species survival and growth were different among treatments at field conditions, varying over time. The highest survival was observed in a native soil strain (S20) while the lowest in MM40. The low survival in MM40 and in the other treatments may be explained by the higher herbivory observed in those seedlings compared to control ones, suggesting a higher nutritional status in inoculated plants. Strains from refuse dumps were the best at enhancing seedling growth, while strains from soil were the best at maintaining their survival. Native Actinobacteria studied may increase plant species survival and growth by improving their nutritional status, suggesting their potential to facilitate vegetation establishment and, therefore, being good candidates for restoration practices. Furthermore, plant species respond differently to different strains, highlighting the importance of microorganism diversity for ecosystem functioning.