Call: Fostering organic crop breeding
|Type of Fund||Direct Management|
of programme |
"Horizon Europe - Cluster 6 - Destination 1: Biodiversity and Ecosystem Services"
The EU biodiversity strategy for 2030 is a cornerstone of the European Green Deal that will put Europe’s biodiversity on the path to recovery by 2030, for the benefit of people, the climate and the planet. It will also prepare the EU to take a leading role in the upcoming international negotiations on a new global framework to halt biodiversity loss. With the Green Deal’s ‘do no significant harm’ vision, all EU policies will become more biodiversity-friendly, focusing more on the sustainable use of ecosystems, supporting the recovery in a post-pandemic world[[COM/2020/380 EU biodiversity strategy for 2030: Bringing nature back into our lives]]. This policy vision is fully supported in the strategic plan of Horizon Europe for 2021-2024 in its first key strategic orientation ‘Protecting and restoring ecosystems and biodiversity and managing sustainably natural resources on land and at sea, and achieving climate neutrality and adaptation’. Consequently, Destination ‘Biodiversity and ecosystem services’ intends to achieve the following expected impact from Cluster 6 ‘Biodiversity is back on a path to recovery, and ecosystems and their services are preserved and sustainably restored on land, inland water and at sea through improved knowledge and innovation’. All actions funded under this destination must therefore help to deliver this main impact.
Research and innovation is key to delivering results that will have an important impact on biodiversity, food, health, water and climate, which are all interconnected, and to achieving the goal of healthy and resilient ecosystems by 2030. It will also enable transformational change engaging European society and economy and their global impacts, making decisions more biodiversity-friendly. R&I will support policy targets, develop nature-based solutions[[Nature-based solutions are “inspired and supported by nature, which are cost-effective, simultaneously provide environmental, social and economic benefits and help build resilience. Such solutions bring more, and more diverse, nature and natural features and processes into cities, landscapes and seascapes, through locally adapted, resource-efficient and systemic interventions. Hence, nature-based solutions must benefit biodiversity and support the delivery of a range of ecosystem services.”]] and holistic approaches to address the main causes of biodiversity loss, particularly in connection to production systems, bringing all sectors together to be integrated in ecosystem-based management. Investments in R&I will help to protect and restore the integrity of terrestrial, aquatic and marine ecosystems, currently under multiple pressures, and protect and restore their capacity to deliver a wide range of essential services. Under Horizon Europe, a long-term strategic research agenda for biodiversity will also be developed.
The sixth mass extinction is taking place: one million species are at risk of extinction, and the degradation of ecosystems severely affects the fabric of life that enables the survival of humankind[[IPBES global assessment (2019). Summary for policy-makers.]]. None of the globally agreed targets of the 2011-2020 strategic plan for biodiversity has been fully achieved[[United Nation’s 5th Global Biodiversity Outlook (2020).]], with the biodiversity crisis even deepening. Our knowledge on biodiversity status, pressures, impacts and responses needs to be improved, requiring even basic taxonomic work in certain ecosystems. Understanding biodiversity decline and addressing its main drivers through data-driven science, integrated multidisciplinary knowledge, new tools, models and scenarios, will support Europe’s policy needs and boost global biodiversity science. Solutions for preventing and addressing the individual and cumulative effect of direct drivers of biodiversity loss (land use change, overexploitation, climate change, invasive species, pollution) need to be further developed and made available to policy makers and practitioners, such as through the new EC Knowledge Centre for Biodiversity[[https://knowledge4policy.ec.europa.eu/biodiversity_en]]. For more impact on society and economic sectors, citizen science and crowdsourcing also require big data analysis, artificial intelligence, social sciences, communications and policy tools.
Valuing and restoring biodiversity and ecosystem services is necessary to develop tools to guide decisions, inform and implement policies on the environment, water, health, climate, disaster risk reduction, agriculture, forests and other land use types, protected areas management, the sustainable bioeconomy, the blue economy, maritime and cross-sectoral spatial planning, and responsible business practices. The continued degradation of the ecosystems and their services affects biodiversity and climate change[[https://www.nature.com/articles/s41558-020-0738-8]], and increases the risk of severe ecological disasters and pandemics. The European Green Deal and its biodiversity strategy call for urgent action to restore damaged aquatic and terrestrial ecosystems in order to increase biodiversity and deliver a wide range of ecosystem services.
The contribution of ecosystems to human wellbeing and the economy is not properly accounted for in market transactions, or in planning and investment decisions: the social and economic co-benefits of healthy ecosystems are often disregarded. Natural capital accounts need to be developed and mainstreamed. Investments in R&I will also lay the ground for scaling up and speeding up the implementation of technological, societal and nature-based solutions (NBS). NBS support vital ecosystem services, biodiversity and biomass provision, as well as access to drinking water, clean soil, improved livelihoods, healthy diets and food safety and security from sustainable food systems. NBS deployment will also create green jobs and build resilience to climate change and natural disasters. Citizens, authorities, businesses, social partners and the research community must be engaged at local, regional, national and European levels.
Managing biodiversity in primary production: Biodiversity is the basis for sustainable and resilient agriculture, fisheries, aquaculture and forestry, as also recognised in the farm to fork and biodiversity strategies under the Green Deal. With diverse genetic resources, it is possible to use in primary production plants and animals that are adapted to different environments, ecosystems and meet diverse needs. Furthermore, the interplay between species below and above ground delivers important ecosystem services, such as pollination, soil fertility, pest and risk control. Despite these recognised benefits, current production systems tend to be specialised and rely on a limited number of crops, breeds and forest tree species whose genetic basis is narrow. Reversing this trend and increasing their resilience is critical and of global concern in particular in the current context of accelerated climate change and a growing population whose production and consumption footprint is increasing.
Enabling transformative change [[Transformative change has been defined by IPBES as “A fundamental, system-wide reorganization across technological, economic and social factors, including paradigms, goals and values”. IPBES global assessment (2019). Summary for policy-makers.]] in biodiversity: Science (IPBES and IPCC) and Policy (the global post-2020 biodiversity framework and the EU biodiversity strategy) clearly underline that biodiversity loss can only be successfully addressed if transformative changes are initiated, accelerated, and up-scaled. There is however hardly any knowledge on potentials and challenges arising from transitions focused on biodiversity. System-level change of this kind starts with social innovation in the form of, for example, regulations, incentives, local and participatory processes, and through the introduction of new technologies, new production processes, or new consumer products, which change how socio-technical and socio-ecological systems operate and impact their environment. Such transformative change must decrease the impacts of indirect drivers of biodiversity loss, which are in turn, underpinned by societal values and behaviours. Indirect drivers of biodiversity loss are understood to mean here: production and consumption patterns, human population dynamics and trends (including their footprints), trade, technological innovations, and local to global governance (including financing). Research and innovation can enable these transformative changes to happen and initiate processes, behaviour changes and actions which are transforming the way we impact biodiversity. Socio-economic and multidisciplinary research, including on the role of education, will develop knowledge and tools to understand the role of transformative change for biodiversity policy making, address the indirect drivers for biodiversity loss, and accelerate transformative changes in our society that are relevant to biodiversity.
Interconnecting biodiversity research and supporting policies refers to the establishment of the European Partnership ‘Rescuing biodiversity to safeguard life on Earth’ and to the support to other science-policy interfaces. The European partnership on biodiversity[[https://www.biodiversa.org/1759]] will connect national, local and European research, innovation and environmental programmes, combining resources in support of one goal, i.e. that by 2030 biodiversity in Europe is back on the path to recovery. It will co-develop multidisciplinary research and innovation programmes with stakeholders, set up a European network of coordinated observatories for biodiversity monitoring, and implement a broad range of activities to increase the relevance, impact and visibility of EU research and innovation in tackling the biodiversity crisis in line with the EU biodiversity strategy for 2030.
Science-policy interfaces on biodiversity and nature-based solutions have made good progress in recent years[[Good leverage effects have been achieved, notably through EKLIPSE, Oppla, the NBS platform, the EU4IPBES support action 2018-2021.]], and must be stepped up to achieve targeted impacts on biodiversity-relevant policies, that can in turn be used as structured policy input into the research cycle. These interfaces are also key to guiding biodiversity governance, and to implement the EU Green Deal and international conventions[[In particular, the UN Convention on Biodiversity, and the Sustainable Development Agenda 2030]]. In line with the Commission priority 'A stronger Europe in the world', the EU must take and demonstrate leadership in this field, notably by increasing its support to IPBES[[The Intergovernmental science-policy Platform on Biodiversity and Ecosystem Services]] -to bring it up to the same level as the IPCC-, and to the Convention on Biological Diversity. Besides economic support, this also includes efforts to create synergies and cooperation between IPBES, regional Multilateral Environmental Agreements and other relevant research communities to ensure a full coverage of all relevant aspects of biodiversity and ecosystem services in order to underpin the full scope of the post 2020 global biodiversity framework.
All topics will directly contribute to the EU biodiversity strategy for 2030 and to the Sustainable Development Goals (SDGs) 13, 14, 15, 17.
Several missions will also help to achieve biodiversity-related impacts, notably in the areas of ‘Adaptation to climate change including societal transformation’, ‘Climate-neutral and smart cities’, ‘Ocean, seas and waters’ and ‘Soil health and food’.
Proposals for topics under this destination should set out a credible pathway contributing to Biodiversity and Ecosystem Services, and more specifically to one or more of the following impacts:
When considering the impact of the proposals, their compliance with the ‘do no significant harm’ principle[[As per Article 17 of Regulation (EU) No 2020/852 on the establishment of a framework to facilitate sustainable investment (EU Taxonomy Regulation)]] has to be assessed. Also it has to be ensured that the research and innovation activities do not cause a significant harm to any of the six environmental objectives of the EU Taxonomy Regulation.
The portfolio of actions under this destination will have impacts in the following areas: “Enhancing ecosystems and biodiversity on land and in waters”; “Climate change mitigation and adaptation”; “Clean and healthy air, water and soil”; “Sustainable food systems from farm to fork on land and sea”; and “A resilient EU prepared for emerging threats”.
|Link||Link to Programme|
Fostering organic crop breeding
|Description of call |
"Fostering organic crop breeding"
A successful proposal should support the objectives of the EU biodiversity and farm to fork strategies to transition to fair, healthy and environmentally-friendly food systems from primary production to consumption, notably the objective to increase organic farming. They should do so by increasing the availability of and access to suitable plant reproductive material for organic crops and by increasing the competitiveness of the organic crop breeding sector. As such, activities funded under this topic will help the EU achieve the target of at least 25% of the EU’s agricultural land under organic farming by 2030. Project results are expected to contribute to all the following expected outcomes:
Promoting the use of more sustainable farming practices is an EU policy objective enshrined in the European Green Deal and its related strategies. Boosting organic farming in the EU, one of these objectives, can greatly contribute to achieving the ambition to significantly reduce the use and risk of inputs in farming while making agriculture more resilient, including through increased (bio)diversity. Increasing the availability of organic varieties for the organic sector that are better adapted to different and variable conditions is important in order to improve the performance of the organic crop sector. Application of the new organic Regulation (EU) No 2018/848 has the potential to support higher levels of biodiversity and greater resilience in the organic sector with the use of new tools such as the definition of organic heterogeneous material (OHM) and organic varieties. The possibility to use landraces can also revive traditional and regional crops. However, achieving adequate and timely upscaling of organic breeding and seed production that meet growing market demands can be challenging for the sector. Strong involvement from public and private actors, novel governance and financing models for breeding, variety testing and seed production, as well as training, are needed.
Proposals should contribute to improving the availability and quality of plant reproductive material and the selection of varieties suited to the specific conditions of organic farming, in line with the objectives and requirements for organic plant reproductive material set out in Regulation (EU) No 2018/848 and the transformation of the EU’s breeding sector. Proposals must implement the ‘multi-actor approach’ and ensure a value chain approach with adequate involvement of the farming sector. Activities should take into account the diversity of seed systems in the EU. The topic is open to all types of organic farming systems in various geographical and pedo-climatic conditions. In this topic the integration of the gender dimension (sex and gender analysis) in research and innovation content is not a mandatory requirement.
Proposals should develop measures to support the preservation of genetic resources and increase the availability of plant reproductive material for the organic sector, including through pre-breeding and breeding activities and new approaches to seed sourcing.
Proposals should develop measures that contribute to the development of organic heterogeneous material and varieties suitable for organic cultivation for an increasing range of crops, including arable, forage and horticultural crops.
Proposals should develop specific protocols for testing new organic varieties. Measures should consider the adaptability of OHM and organic varieties to different climatic and edaphic conditions, and resistance to pests and diseases, as well as combining these assets with crop stability, productivity and nutritional content in order to maintain a level of competitiveness of the organic plant reproductive material. The potential of OHM to foster and improve the use of traditional material in organic crop farming should be analysed.
Proposals should develop a toolbox to identify OHM and a system to ensure OHM breeding traceability and maintenance. Case studies of innovative engagement of value chain partners in organic plant breeding in different contexts should be analysed and key factors of success should be identified. Proposals should develop governance and financial models to support organic plant breeding that include all actors in the value chain. Proposals should conceive marketing and value chain development strategies to introduce improved varieties for seed multiplication and treatment, ensuring quality and transparency in the organic seed market. Proposals should set up new networks, and expand existing ones where relevant, to demonstrate and test organic crop breeding in different pedo-climatic regions across Europe, with an emphasis on regions where the organic sector is less developed. Proposals will give attention to participatory on-farm demonstrations. Proposals should design training packages tailored to the specific needs of different actors of the organic breeding and seed business to strengthen their capacities and increase breeding gains.
Proposals should develop scientifically robust and transparent methodologies, building on achievements from previous research activities. To ensure trustworthiness, swift and wide adoption by user communities, and to support EU and national policy-makers, actions should adopt high standards of transparency and openness, going beyond ex-post documentation of results and extending to aspects such as assumptions, models and data quality during the life of projects.
|Link||Link to Call|
|Thematic Focus||Research & Innovation, Technology Transfer & Exchange, Capacity Building, Cooperation Networks, Institutional Cooperation, Clustering, Development Cooperation, Economic Cooperation, Digitisation, ICT, Telecommunication, Green Technologies & Green Deal, Climate, Climate Change, Environment & Biodiversity, Agriculture & Forestry, Fishery, Food, Circular Economy, Sustainability, Natural Resources, Disaster Prevention, Resiliance, Risk Management|
|Funding area|| EU
Member States |
Overseas Countries and Territories (OCTs)
|Origin of Applicant|| EU Member States |
Overseas Countries and Territories (OCTs)
|Eligible applicants||Research Institution, Small and Medium Sized Enterprises, SMEs (between 10 and 249 employees), Microenterprises (fewer than 10 employees), NGO / NPO, Other, Start Up Company, University, Enterprise (more than 250 employees or not defined)|
|Applicant details|| |
eligible non-EU countries:
At the date of the publication of the work programme, there are no countries associated to Horizon Europe. Considering the Union’s interest to retain, in principle, relations with the countries associated to Horizon 2020, most third countries associated to Horizon 2020 are expected to be associated to Horizon Europe with an intention to secure uninterrupted continuity between Horizon 2020 and Horizon Europe. In addition, other third countries can also become associated to Horizon Europe during the programme. For the purposes of the eligibility conditions, applicants established in Horizon 2020 Associated Countries or in other third countries negotiating association to Horizon Europe will be treated as entities established in an Associated Country, if the Horizon Europe association agreement with the third country concerned applies at the time of signature of the grant agreement.
Legal entities which are established in countries not listed above will be eligible for funding if provided for in the specific call conditions, or if their participation is considered essential for implementing the action by the granting authority.
|Project Partner Details|| |
Unless otherwise provided for in the specific call conditions , legal entities forming a consortium are eligible to participate in actions provided that the consortium includes:
|Further info|| |
Proposal page limits and layout:
The application form will have two parts:
Page limit - Part B: 45 pages
|Type of Funding||Grants|
|Financial details|| |
The proposals must use the multi-actor approach. See definition of the multi-actor approach in the introduction to this work programme part. Activities are expected to achieve TRL 6-7 by the end of the project.
|Submission||Proposals must be submitted electronically via the Funding & Tenders Portal Electronic Submission System. Paper submissions are NOTpossible.|