PAPILLONS will elucidate ecological and socioeconomic sustainability of agricultural plastics (APs) in relation to releases and impacts of micro- and nanoplastics (MNPs) in European soils. We will advance knowledge on sources, behaviour and impacts through cross-disciplinary research, bringing together scientists from chemistry, materials engineering, agronomy, soil ecology, toxicology and social sciences. We will transform the scientific knowledge generated into guidance on specific solutions by applying a Multi-actor approach, involving actors in the agricultural and policy sector and world-leading industries. This will enable co-creation of knowledge and provide the scientific background to enable policy, agricultural and industrial innovation towards sustainable farm production systems. We will deliver the first digital European atlas of AP use, management and waste production to estimate sources of MNP to agricultural soils. We will run integrative studies at laboratory, mesocosm and field scales in different parts of Europe to address: occurrence of AP-derived MNPs; MNP behaviour and transport in soil; uptake by biota and crops; long-term impacts on soil properties, fertility and ecological services; effects on biological and functional diversity across multiple scales; effects on plant production and quality; and socioeconomic impacts of AP-based practices. We will focus on multigenerational effect studies for relevant traditional and biodegradable polymers, at realistic and future high-exposure scenarios. PAPILLONS partners pioneered soil MNP research, host the majority of European analytical capacity for assessing soil contamination and will provide validated, high-throughput analysis for MNPs in soil. Using innovative applications of state-of-the-art analytical chemistry, we will advance analysis down to the nanoscale range and develop novel radiolabelled nanoplastics for accurately tracking behaviour and transport in soil and uptake by biota and crops.

AGENT aims to transform genebanks (GB) from living archives into bio-digital resources centres, equipped to meet the needs of a changing world. Fifteen GB and four genebank genomic centers will create a network to work exemplarily on barley and wheat for (i) establishing a European (global) crop genomic diversity atlas, (ii) activating currently inaccessible legacy phenotypic data, (iii) implementing a novel concept of concerted accumulation of phenologic and agronomic data for individual GenRes collections to establish training population datasets for the genome-wide prediction of untested GenRes accessions. Phenotyping will take into account diverse environmental conditions (climate, soil, geography, pathogens) provided by the diversity of eco-geographic locations of the participating GB and their partners. These activities will be supported by a bioinformatics network that will implement FAIR data principles, standards, protocols, and data formats enabling data storage, access, use, and re-use, extending the existing EURISCO GenRes portal for new data types. AGENT will use existing solutions established by ongoing European projects and international initiatives, but also develop new tools for novel functionality of data access, visualisation, and use, which will be connected and implemented via plugin or web-services, allowing their incorporation in EURISCO and other data portals, and their easy application to other crop GenRes, based on data already available at EURISCO or provided by AGENT partner GB. A coordinated testing network is another unique layer of AGENT, directly involving stakeholders (e.g. farmer cooperatives, breeding companies, NGOs) in monitoring, mentoring, capacity building and training in the development of workflows and tools. Thus, AGENT project results will be directly disseminated to GB, researchers, breeders, policy makers and the general public and raise awareness of the general as well as the specific societal importance of GenRes.

DETECTIVE will develop and validate approaches to detect, identify, and quantify plant and animal products resulting from new genomic techniques (NGTs). NGT products are currently regulated as genetically modified organisms (GMOs) in the EU. This means that they are subject to authorisation procedures, which include event-specific methods for detection, identification, and quantification of the corresponding food and feed products. However, the analytical methods commonly used for transgenic GMOs are often not suitable for NGT products as these often do not contain genetic elements that allow unambiguous traceability. DETECTIVE will investigate the technical forefront for detection including the latest PCR-based and sequencing approaches for NGT products with known and unknown genetic alterations, and validate these in national enforcement laboratories. We will build a cluster of databases to enable Machine Learning-based screening. While technical detection may be limited, DETECTIVE will also look into non-technical approaches to traceability and authenticity to develop comprehensive solutions, including their respective economic and legal implications, to a wide range of NGT products. By taking a systemic and holistic approach, DETECTIVE will identify the boundary conditions that traceability approaches need to meet. The results will promote NGT research and innovation (R&I) that enable a resilient primary production (agriculture and animal husbandry) of highly nutritional food products and thereby contribute to a sustainable, healthy and inclusive food system in Europe that enables choice for both producers and consumers. DETECTIVE is a multi-disciplinary and multi-sectoral consortium and its links to relevant stakeholders through a Stakeholder Advisory Board will enable an improved understanding and awareness of the challenges related to traceability, authenticity and transparency of NGT-derived products.

RustWatch will establish a stakeholder driven early-warning system to improve preparedness and resilience to emerging rust diseases on wheat, which is Europe’s largest agricultural crop. This is urgent because Europe in 2016 experienced the most severe epidemics of wheat stem rust for more than 50 years, and the pre-existing population of wheat yellow rust has been replaced by invasive races of non-European origin. RustWatch will address all areas listed in the call, including exploring the drivers shaping the new European wheat rust populations, assessment of their impact on agricultural productivity in the context of IPM Directive 2009/128/EC, and finally develop research and communication infrastructures taking advantage of stakeholder networks and expertise, and collaboration via existing global networks. RustWatch provides beyond state-of-the-art research within new diagnostic tools, enabling rapid and precise identification of new invasive races, and investigating the impact of virulence, aggressiveness and adaptation to warmer temperatures as drivers of pathogen spread and establishment. The research has potential for a break-through in the area of host resistance phenotyping, e.g., by going beyond the observation of disease and categorize resistance responses at the cellular level. This phenotyping is essential for utilizing the vast amount of genomic sequence information produced by new emerging breeding technologies. The early-warning system for prevention and control of rust diseases will become implemented via case studies in five regions. The case studies will aid in development and validation of the systems in collaboration with a wide array of stakeholder groups, involve agricultural advisers in disease surveillance and sampling for later diagnosis, and collect information about potential barriers in adopting the system. RustWatch engages 12 universities/research institutes, 5 agricultural advisory services, and 8 SMEs/industries.