FIGURE 1.

Fresh biomasses of sweet basil plants at the end of the growing period. (A) Root biomass of cv. Genovese plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution, either non-inoculated or inoculated with A. brasilense. (B) Shoot biomass of cv. Genovese plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution, either non-inoculated or inoculated with A. brasilense. (C) Representative pictures of sweet basil cv. Genovese plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution. (D) Representative pictures of sweet basil cv. Genovese plants grown in control hydroponic solution, in a NO₃^–- or in a SO₄^2–-overfertilized nutrient solution and inoculated with A. brasilense. (E) Root biomass of cv. Red Rubin plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution, either non-inoculated or inoculated with A. brasilense. (F) Shoot biomass of cv. Red Rubin plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– over-fertilized nutrient solution, either non-inoculated or inoculated with A. brasilense. (G) Representative pictures of sweet basil cv. Red Rubin plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution. (H) Representative pictures of sweet basil cv. Red Rubin plants grown in control hydroponic solution, in a NO₃^– or in a SO₄^2– overfertilized nutrient solution and inoculated with A. brasilense. Data are reported as means ± SE, n = 6. The statistical significance was tested by means of ANOVA with Tukey posttest. Different letters indicate statistically different values (p < 0.05).