Growth and yield promoting effect of artificial mycorrhization on field tomato at different irrigation regimes

Plant inoculation with formulations of vesicular-arbuscular mycorrhiza (VAM) can be a sustainable technique for the improvement of tomato yield and plant resistance to biotic and abiotic stresses. Combination of artificial plant mycorrhization with water deficit irrigation could be an effective agronomical technique for the optimization of water use efficiency of tomato in the areas with a limited water availability. A 2-year research on field tomato was undertaken in Southern Italy (40 degrees 24'N; 16 degrees 48'E; 10 m a.s.l.) to evaluate the effects on crop growth, yield, and fruit quality of the combination of seedling inoculation with two VAM formulations, alone or integrated with plant growth promoting rhizobacteria (PGPR), with different irrigation regimes (restoration of 0%, 50%, and 100% of maximum crop evapotranspiration). A split-plot experimental design with three reps was followed, with irrigation regimes in the main plots and mycorrhizal treatments in the subplots. Both VAM treatments, either with or without PGPR, demonstrated to be highly and rapidly effective on plant growth, as significantly increasing growth of tomato seedlings and plant biomass at mid and end of both crops compared to the non-inoculated control. Positive effects of mycorrhizal inoculation were extended also to marketable yield, mainly as a result of an increased number and weight of fruits. Both VAM inocula did not significantly affect fruit quality parameters, though increased water use efficiency of marketable yield. Both irrigation regimes positively affected tomato growth and marketable yield, whereas the fruit quality was better in less- and non-watered plants. Adversely to expectations, no synergism was found between artificial mycorrhization and irrigation regimes. (C) 2015 Elsevier B.V. All rights reserved.