Impacts on Seed Productivity, Quality, and Protection of upon Disease Stress Caused by : Phenotypic, Proteomic, and Metabolomic Traits.

In field peas, ascochyta blight is one of the most common fungal diseases caused by Despite the high diversity of pea cultivars, only little resistance has been developed until to date, still leading to significant losses in grain yield. Rhizobia as plant growth promoting endosymbionts are the main partners for establishment of symbiosis with pea plants. The key role of as an effective nitrogen source for legumes seed quality and quantity improvement is in line with sustainable agriculture and food security programs. Besides these growth promoting effects, symbiosis has been shown to have a priming impact on the plants immune system that enhances resistance against environmental perturbations. This is the first integrative study that investigates the effect of bv. ) on phenotypic seed quality, quantity and fungal disease in pot grown pea () cultivars with two different resistance levels against through metabolomics and proteomics analyses. In addition, the pathogen effects on seed quantity components and quality are assessed at morphological and molecular level. inoculation decreased disease severity by significant reduction of seed infection level. symbiont enhanced yield through increased seed fresh and dry weights based on better seed filling. inoculation also induced changes in seed proteome and metabolome involved in enhanced resistance level against . Besides increased redox and cell wall adjustments light is shed on the role of late embryogenesis abundant proteins and metabolites such as the seed triterpenoid Soyasapogenol. The results of this study open new insights into the significance of symbiotic interactions for crop yield, health and seed quality enhancement and reveal new metabolite candidates involved in pathogen resistance.