Abstract
The present work was aimed at investigating the effects of a four bacterial strain consortium—Azospirillum brasilense, Gluconacetobacter diazotrophicus, Herbaspirillum seropedicae, and Burkholderia ambifaria—on Allium cepa L. and on soil health. The bacterial consortium was inoculated on seeds of two different onion varieties; inoculated and Control seeds (treated with autoclaved inoculum) were sown in an open-field and followed until harvest. Plant growth development parameters, as well as soil physico–chemical and molecular profiles (DNA extraction and 16S community sequencing on the Mi-Seq Illumina platform), were investigated. The results showed a positive influence of bacterial application on plant growth, with increased plant height (+18%), total chlorophylls (+42%), crop yields (+13%), and bulb dry matter (+3%) with respect to the Control. The differences between Control and treatments were also underlined in the bulb extracts in terms of total phenolic contents (+25%) and antioxidant activities (+20%). Soil fertility and microbial community structure and diversity were also positively affected by the bacterial inoculum. At harvest, the soil with the presence of the bacterial consortium showed an increase in total organic carbon, organic matter, and available phosphorus, as well as higher concentrations of nutrients than the Control. The ecological indexes calculated from the molecular profiles showed that community diversity was positively affected by the bacterial treatment. The present work showed the effective use of plant growth-promoting bacteria as a valid fertilization strategy to improve yield in productive landscapes whilst safeguarding soil biodiversity.
Highlights
One of the current concerns in agriculture is to improve the sustainability of productive land and at the same time to achieve high production rates
We investigated the biostimulating efficacy of seed inoculation with a bacterial consortium consisting of Azospirillum brasilense Cd, Burkholderia ambifaria PHP7, Gluconacetobacter diazotrophicus
Control seeds showed clear surfaces, while high bacterial adhesion was observed under the plant growth-promoting bacteria (PGPB) condition (Figure 1A)
Summary
One of the current concerns in agriculture is to improve the sustainability of productive land and at the same time to achieve high production rates. To achieve this goal, one of the promising and sustainable innovations could be the use of natural plant biostimulants [1]. Plant biostimulants are substances or microorganisms applied to plants for the enhancement of nutrition, tolerance to abiotic stress, and improvement in crop quality traits [2]. Plant growth-promoting bacteria (PGPB) are considered sustainable biostimulant agents, effective in the presence of abiotic stress factors [1]. We investigated the biostimulating efficacy of seed inoculation with a bacterial consortium consisting of Azospirillum brasilense Cd, Burkholderia ambifaria PHP7, Gluconacetobacter diazotrophicus
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