The core concept of Excalibur derives from the understanding of the complexity of the soil biodiversity and plant-soil-microbe interactions, moving beyond the simplified view of individual plant–microbe or soil-plant interactions and consider the plant, the soil, and the soil organisms as a unique “meta-organism” able to influence plant health and productivity. Therefore, the new knowledge produced by Excalibur by using cutting edge methods is expected to uncover soil biodiversity multiscale dynamics in relation to agronomical practices, particularly related to the use of microbial inoculants for plant nutrition and protection practices, under contrasting biotic/abiotic stress conditions and management systems.
Expected results:
• Increased knowledge on soil biodiversity dynamics, plant-soil-microbe interactions and on the relationships between soil native biodiversity, soil health, bioproducts and control of biotic and abiotic stress
• Definition of strategies for the improvement of plant protection and nutrition by enhancing soil biodiversity management
• Development and improved formulation of new multifunctional microbial inoculants
• Practical guidelines for farmers and technical advisors on how to apply microbial-based products
• Development of diagnostic tools for the detection and monitoring of microbial inoculants in the soil
• Delivery of new methods and tools to easily address soil microbial diversity
• Development and validation of a predictive model and of a decision support system (DSS) for biodiversity management
• Demonstration of the efficacy and economical suitability of the new strategy under field scale trials.
• Insight in the incentives from the value chain and policy makers to enhance more sustainable biodiversity driven soil management
Main potential impacts:
• Enhancement of soil ecosystem services and sustainability in horticulture
• Reduction of external inputs in plant management (10-30%, depending on crops, conditions, etc.)
• Contribution to enhance innovation capacity, create new market opportunities, strengthen competitiveness and growth of companies
• New solutions and tools to embed soil biodiversity benefits into policy measures and support derivative legal provisions (es. EU Fertilizer Regulation, EU Biodiversity Strategy 2030, bioproduct registration, etc.)
• Development of more efficient microbial-based products and optimization of their application
• Strategies and tools for a biodiversity-based soil management
• Foster the synergies between agricultural production, biodiversity and the delivery of soil ecosystem services
• Contribution to address other issues related to climate change or the environment, or bring other benefits for society