The (SIF 2024), one of the three pillars of the , together with the and the , wrapped up three days of discussions on Friday at the Rome headquarters of the Food and Agriculture Organization of the United Nations (FAO) on how to make cutting-edge technologies available to small-scale producers.
The third edition of SIF was held under the theme Inclusive Science and Innovation for Agrifood Systems Transformation, Leaving No One Behind. It brought together recognised scientists, innovation experts, and policymakers, as well as small-scale producers, Indigenous Peoples, women, youth, and the private sector, in a bid to encourage a diversity of perspectives based on science.
“Science, technology, and innovation are key accelerators of agrifood systems transformation, but they must be inclusive to ensure that the transition is just and equitable,” FAO Director-General QU Dongyu said in his opening address to the forum.
As the world’s agrifood systems face growing challenges-including the climate crisis, biodiversity loss, resource degradation, population growth, and changing diets-the potential of new technologies should be harnessed for developing solutions.
However, what is needed is to make these innovations impactful on a broader scale – so that all share the benefits equally and sustainably.
The forum also aimed to facilitate inclusive debate and showcase how science and innovation can be leveraged to transform agrifood systems. In Friday’s , for instance, Costa Rica’s Agricultural Minister, Victor Carvajal Porras, offered insights about the real-world impact of inclusive agrifood innovations in his country.
Gene editing
Thursday’s SIF 2024 opened with a that explored the benefits of the adoption and diffusion of gene editing technologies and examined their implications, including risks, for small-scale producers. It also provided a platform to discuss regulatory and policy considerations.
Research shows that this technology could enhance precision in breeding methods and contribute to the rapid development of improved plant varieties and animal breeds. Potential benefits include crops and livestock that are more resistant to pests and diseases and improved resilience to climate change.
Some of the gene-edited products include bananas biofortified with vitamin A, hypoallergenic milk, gluten-free wheat, disease-resistance salmon, drought-tolerant grapevines, and cacao protected against fungal disease.
However, there are also potential environmental, food safety, ethical, and regulatory concerns. In this regard, FAO published a in 2022 that discusses these important aspects, followed by a 2023 on food-safety-related issues in applying gene editing for food production, including the applicability of existing principles and guidelines for relevant food safety assessments.
Above all, there’s a need to ensure that such technologies are inclusive and benefit all food producers, including family farmers, Qu said in his opening remarks to the session.
The Director-General also called for more science communication and education to better inform the public about the potential benefits of these new technologies.
Artificial Intelligence
The need for inclusivity was also at the heart of an on artificial intelligence (AI), which brought together diverse perspectives and allowed participants to explore how this technology can shape the future of agrifood systems.
AI is already reshaping how we grow, harvest, and distribute food, fisheries, and forestry. However, AI must be inclusive and responsible for its true potential to be realised. This is why, in February 2020, FAO, along with Microsoft, IBM, and the Holy See, was among the first signatories of the .
For AI to help reduce poverty and contribute to a world without hunger, it must bridge-rather than widen-what the Director-General calls the triple divide: digital, rural, and gender. This requires proper governance and collaboration between the public and private sectors.
FAO has already embedded AI and machine-learning techniques in many of its products.
These include the , which monitors and reports on agriculture water productivity over Africa and the Near East; the , which searches satellite data for emerging signs of drought; the , which tracks small-scale changes in forests that can indicate fires or illegal logging; the , which enables farmers to detect Fall Armyworm damage in a timely manner; and FAO’s , which uses non-conventional sources and builds AI-driven tools to modernise statistical processes to support agrifood systems transformation.
Reports launched
SIF 2024 also saw the launch of two reports: the WFF Young Scientists Group (YSG) report, named , and a foresight report named .
It also witnessed the launch of the Programme on Accelerator Mentorship for Women-led SMEs in Africa, a component of the jointly-led FAO-International Agri-Food Network () initiative: .
