Abstract
Achieving food security in a context of environmental sustainability is one of the main challenges of the XXI century. Two competing strategies to achieve this goal are the use of genetically modified plants and the use of plant growth promoting microorganisms (PGPMs). However, few studies assess the response of genetically modified plants to PGPMs. The aim of this study was to compare the response of over-expressing the vacuolar H+-PPase (AVP) and wild-type rice types to the endophytic fungus; Piriformospora indica. Oryza sativa plants (WT and AVP) were inoculated with P. indica and 30 days later, morphological, ecophysiological and bioenergetic parameters, and nutrient content were assessed. AVP and WT plant heights were strongly influenced by inoculation with P. indica, which also promoted increases in fresh and dry matter of shoot in both genotypes. This may be related with the stimulatory effect of P. indica on ecophysiological parameters, especially photosynthetic rate, stomatal conductance, intrinsic water use efficiency and carboxylation efficiency. However, there were differences between the genotypes concerning the physiological mechanisms leading to biomass increment. In WT plants, inoculation with P. indica stimulated all H+ pumps. However, in inoculated AVP plants, H+-PPase was stimulated, but P- and V-ATPases were inhibited. Fungal inoculation enhanced nutrient uptake in both shoots and roots of WT and AVP plants, compared to uninoculated plants; but among inoculated genotypes, the nutrient uptake was lower in AVP than in WT plants. These results clearly demonstrate that the symbiosis between P. indica and AVP plants did not benefit those plants, which may be related to the inefficient colonization of this fungus on the transgenic plants, demonstrating an incompatibility of this symbiosis, which needs to be further studied.
Highlights
Recent decades have been marked by important changes in the agricultural production, due to the larger use of fertilizers (Clay, 2013)
In the present study we analyzed the interaction of transgenic rice plants overexpressing the AVP1 gene with the plant growth promoting microorganisms (PGPMs) P. indica, using morphological, ecophysiological, FIGURE 4 | Net carbon assimilation (A) (A), stomatal conductance (B), transpiration (E) (C), intrinsic water use efficiency (D), internal/external carbon concentration (Ci/Ca) (E), and carboxylation efficiency (A/Ci) (F) in leaves of transgenic rice overexpressing (AVP) or not (WT) the vacuolar H+-PPase, inoculated or not with the endophytic fungus P. indica
Biochemical and nutritional characteristics (Figures 1, 2, 4–8 and Tables 2, 3), and found the fungus to be generally positive for plant development (Prajapati et al, 2008; Bagheri et al, 2013; Jogawat et al, 2013)
Summary
Recent decades have been marked by important changes in the agricultural production, due to the larger use of fertilizers (Clay, 2013). Total consumption of N, P, and K fertilizers increased from 30 million tons per year (Mt/year) in 1960 to 193 Mt/year in 2014, a 500% increase (FAO, 2017), which has been contributing to food security while creating complex environmental issues (Thilagar et al, 2016) In this context, the concept of sustainable agriculture has become of utmost relevance (Wezel et al, 2014), and new technologies that optimize the balance between crop yield and environment impact are being developed (Long et al, 2015). Transgenic plants expressing the vacuolar proton-pumping pyrophosphatase (H+-PPase) gene (AVP1) have enhanced shoot and root biomass production under various abiotic stress conditions, including low nutrient availability, drought and salinity (Schilling et al, 2017). AVP1 has a recognized role in facilitating auxin transport and regulating auxin-related developmental processes (Li et al, 2005)
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