AgriFoodTech start-ups are coming to be seen as relevant players in the debate around and reality of the transformation of food systems, especially in view of emerging or already-established novel technologies (such as Artificial Intelligence, Sensors, Precision Fermentation, Robotics, Nanotechnologies, Genomics) that constitute Agriculture 4.0 and Food 4.0. However, so far, there have only been limited studies of this phenomena, which are scattered across disciplines, with no comprehensive overview of the state of the art and outlook for future research.
En la actualidad, las tecnologías digitales forman parte de nuestra vida cotidiana, y la constante búsqueda de factores innovadores se ha vuelto indispensable para adaptarse al futuro. La innovación involucra la creación de algo nuevo y diferente, ya sea resolver un problema preexistente de una manera original, enfrentar un desafío inexplorado utilizando una solución comprobada, o bien, aportar a una problemática completamente nueva con una respuesta novedosa (FAO, 2023a).
In the SALSA project, transdisciplinarity means a process of integration of knowledge between researchers belonging to different disciplines (in our case, sociology, economics, anthropology, geography) and with non-academic actors such as NGOs members, innovation brokers, policy makers). The role of transdisciplinary theory building within SALSA is to link diverse areas of knowledge through a co-constructed conceptual framework in order to underpin effective action towards improved FNS.
Agroecology and organ agriculture present promising alternatives to the current food system, supported by a growing body of evidence. Despite the potential of AE/O, their full benefits cannot be realised in most countries due to political and institutional barriers and lock-ins, including incentives and funding that favour "business as usual" food systems. Overcoming present and future challenges will require educated and empowered stakeholders to support AE/O agriculture in their fields.
The current deliverable (D6.2) is divided into two parts each corresponding to one of its two main audiences, namely:
Part 1 – Scientific Methodology
Future technologies and systemic innovation are critical for the profound transformation the food system needs. These innovations range from food production, land use and emissions, all the way to improved diets and waste management. Here, we identify these technologies, assess their readiness and propose eight action points that could accelerate the transition towards a more sustainable food system. We argue that the speed of innovation could be significantly increased with the appropriate incentives, regulations and social licence.
Le présent rapport concerne l’évaluation finale du projet «Intégration de la résilience climatique dans la production agricole et pastorale pour la sécurité alimentaire dans les zones rurales vulnérables à travers l’approche des champs-écoles des producteurs» (GCP/NER/043/LDF) financé par le Fonds pour l’environnement mondial (FEM) et exécuté conjointement par l’Organisation des Nations Unies pour l'alimentation et l'agriculture (FAO) et le Gouvernement du Niger de 2015 à 2021.
RECUEIL DE SUJETS SPECIAUX POUR LES CEAP ANIMES PAR LES FACILITATEURS LOCAUX ET TECHNICIENS
Au Burkina Faso, le faible niveau de développement social et économique et sa population à grande majorité rurale rendent le pays très dépendant des ressources naturelles. Pour se nourrir, se loger et s’épanouir, les ressources naturelles sont directement prélevées et les terres sont de plus en plus mises en culture sous la pression démographique au détriment des espaces naturels. En effet, les ressources naturelles constituent le support de la plupart des activités de production.
The United Nations predicts that we need to increase food production globally by 70 percent to feed 9.6 billion people by 2050. But at the same time, given the climate crisis, we need to significantly reduce the use of energy, water, and land needed to produce food and lower its carbon footprint. In other words, we must figure out how to produce and distribute more food using fewer resources and emissions. We must learn to do farming better with less.