SUSFERT addresses the massive usage of mineral fertilisers in EU agriculture, which are largely based on non-renewable resources, but are required in intensive crop production for meeting demands for food and feed. SUSFERT will develop multifunctional fertilisers for phosphorus (P) and iron (Fe) supply, which will fit into existing production processes and common EU agricultural practice. The SUSFERT innovation combines bio-based and biodegradable coatings, probiotics, the renewable P-source struvite, and nutrigels in at least four novel sustainable P and Fe fertiliser products, which may partly or fully replace unsustainable and resource-intense conventional ones. SUSFERT will test novel organic formulations, microgranules, granules, soil improvers, nutrigels and liquid fertilizer products in field trials, evaluate them regarding economic potential and environmental sustainability, ensure regulatory compliance and establish industry-scale production processes (TRL 7-8). Technological concepts include 1) probiotics based on P and Fe solubilizing Bacilli and Actinobacteria; 2) microbial siderophore (Fe chelator) produced in a demonstration plant; 3) enzymatic modification of the by-product lignin for cost effective, biodegradable controlled release coatings and product stabilization and 4) demonstration of struvite, a renewable P-source from wastewater, as a partial substitute of mineral P. Five industrial, four SME and three academic partners will contribute expertise along the whole value chain in biotechnology, microbiology, large-scale fermentation, fertiliser production and sales. We will fit the SUSFERT products into the regulatory and policy context for conventional and organic agriculture in various pedo-climatic conditions in Europe and prepare rapid market entry post-project.

Imported mineral phosphate and fossil energy-intensive nitrogen fertilisers cause major detrimental impacts on the environment, whilst nutrient-rich side-streams/organic waste remain under-utilised. By optimising usage of bio-based fertilisers (BBF) from side-streams, ensuring their safety, building evidence-based trust in their usage and developing legislative framework for their use, it will be possible to reduce dependence upon mineral/fossil fertilisers, benefiting the environment and the EU’s economy. LEX4BIO aims to achieve this by collecting and processing regional nutrient stock, flow, surplus and deficiency data, and reviewing and assessing the required technological solutions. Furthermore, socioeconomic benefits and limitations to increase substitution of mineral fertiliser for BBFs will be analysed. A key result of LEX4BIO will be a universal, science-based toolkit for optimising the use of BBFs in agriculture and to assess their environmental impact in terms of non-renewable energy use, greenhouse gas emissions and other LCA impact categories. LEX4BIO provides for the first time connection between production technologies of BBFs and regional requirements for the safe use of BBFs. The large variation between EU regions in nutrient flows and regional requirements for fertilisers will be estimated by harmonised methods to produce the knowledge basis needed to set up feasible ways to redirect the nutrient flows where needed. This will be followed by classifying the best available technologies for producing regionally tailored BBFs to secure high agricultural productivity, as well as environmental protection, food safety and human health. In LEX4BIO, the knowledge basis and recommendations will be gathered and processed together with stakeholders across Europe, providing best solutions for decreasing the dependency on imported fertilisers, closing the nutrient cycles and improving sustainability of European farming systems.