Increasing global crop productivity will be central in meeting some of the greatest challenges facing mankind: How will we sustainably feed 9.7 billion people by 2050, while also achieving the transition from a fossil economy towards a bio-economy in order to mitigate, or possibly reverse, the effects of global climate change? How can we assure and maintain the nutritional quality of our future crops? Additionally, how can we provide new crop cultivars adapted to the constraints imposed across vast areas by climate change? A doubling of global crop productivity is required to produce enough plant biomass to achieve food and nutrition security, as well as to meet the demands of a future bioeconomy. To ensure both Food and Nutrition Security this increase in crop production must be achieved without any loss of nutritional quality. In addition, future agriculture will require crops that combine sustainability - they must efficiently using scarce resources like minerals and water and preserving Earth’s biodiversity - with a high resilience to adverse climate conditions. In order to meet these challenging demands, our current crop plants will have to be re-designed and a “future proof” profiling is urgently needed. With a multitude of possible crops and genetic changes, combined with multiple environmental changes, policy and societal challenges, progress could be mired in a seemingly insurmountable complexity. CropBooster-P will address this by identifying priorities and opportunities to adapting and boosting productivity to the environmental and societal changes. While engaging with the public from the beginning, and by mobilizing European plant sciences, our objective is to produce a White Paper – a Roadmap – that will describe the pathway to sustainably doubling Europe’s crop yields by 2050 and preparing these crops for the needs and the future climate of Europe

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.

New genomic techniques (NGTs) can contribute to an energy-efficient, low-input and zero-pollution agricultural production and industrial processing. Despite rapid recent progress, this toolbox is still in its infancy and substantial investments are needed to optimise the methods. Also, the innovation potential is fully exploited only if economic, social, and regulatory drivers coalesce and are accompanied by transparent communication and inclusive stakeholder engagement. A problem facing NGT innovation in Europe is that regulatory uncertainty restricts investment at all levels – research, innovation and scaling up – and the impacts of NGTs, both positive and negative, are not fully assessed. It also remains to be seen if public and stakeholder acceptance of NGT products will enable their application. The consequence is that NGTs do not yet reach their full potential. The research in GeneBEcon has two facets. First, the technical potential is explored by applying gene editing to develop 1) a virus-resistant potato with an industrial tuber starch quality, and 2) microalgae-based production of industrially relevant mycosporin-like amino acids. Second, the risk-regulatory aspects, economic incentives, and social perceptions are investigated. In the latter, comparative analyses are enabled by our approach with two different production systems: open-field agricultural crop and contained-system microalgae. The results will enable technical innovations as well as allow stakeholders (incl researchers, breeders, primary producers, value chain actors, risk assessors and decision makers) to take informed decisions on the safe and responsible use of NGT-derived products. GeneBEcon has a multi-sectoral consortium and the project links to relevant stakeholders through a Stakeholder Advisory Board. This will, through communication and inclusive engagement, enable an improved understanding and awareness of the risks and benefits of NGT-derived products through societal dialogue.

The overarching objective of Farmer’s Pride is to establish a network of stakeholders and conservation sites that effectively coordinates conservation actions to safeguard the wealth of Europe’s in situ plant genetic resources (PGR) and integrates the user community to maximize their sustainable use. Specifically, to address the challenge and scope of the SFS-04-2017 work programme, Farmer’s Pride will: a) build relationships between existing diverse PGR stakeholder networks, and where necessary create new partnerships to establish a unified network of stakeholders involved in PGR conservation and sustainable use; b) enhance existing knowledge of European landrace and crop wild relative genetic diversity and showcase how it can be effectively secured and managed; c) use social science and economic tools to establish the value of in situ PGR populations and individual traits, as well as a cost effective means of conserving them; d) use predictive characterization methods to identify valuable traits in in situ PGR populations, targeting those most vital for satisfying future agricultural and market needs; e) establish a mechanism to facilitate the flow of plant genetic material from in situ populations to the user community, both directly and via ex situ collections; f) develop and establish a durable governance and resourcing structure for the European network of in situ PGR conservation sites and stakeholders; g) promote public awareness of the value of PGR for agriculture and consumers; and h) design and implement a network of European sites and stakeholders that conserves the breadth of PGR diversity found in situ. Through these activities, Farmer’s Pride will result in significant strengthening of European capacities for the conservation, management and sustainable use of in situ PGR as a foundation for increased competitiveness in the farming and breeding sectors, and ultimately for long-term food and nutritional security in Europe.

The project deals with the urgent need to provide climate-resilient cultivars addressed to organic vegetable production systems. These new cultivars will benefit organic growers, and the organic seed industry, providing much needed security both under current and future scenarios of climate change. In this project, we will exploit the genetic variation of broccoli, kohlrabi, bean and tomato for enhanced productivity, by exploiting up-to-date knowledge of genome structure and function. This work will be enhanced by the active involvement of farmers, advisory services, research institutes, breeding companies and food processors from diverse geographical/climatic contexts in Europe and Non-EU countries. The selection of pre-breeding/ breeding lines for the three species will be undertaken in organic vegetable farming systems, utilizing an annual crop rotation scheme. New cultivars will be selected for efficiency when grown under water, temperature, and nitrogen stress, for resistance to some pests and diseases, for desirable product quality traits such as taste, visual appearance, post-harvest performance. The Stakeholder Board will contribute to the expected outcomes of the project. Crop genetic diversity will be broad as we will be utilizing several landraces (LRs) and crops wild relatives (CWRs) provided by partners for the foreseen pre-breeding and breeding activities. We will adopt an innovative approach, where plant traits related to the roots-zone, and to root-growth, and architecture that enable a better interaction with organic soil and its microbiome, are sought to benefit the end-users. This approach will ensure that the available genetic resources and bred-germplasm, combined with the best on-farm management practices will enhance resource use efficiency and productivity. The germplasm from this project will act to pump-prime the production of new seed for the organic growing sector and will also serve as a model for the enhancement of other crops.