Innovation portfolio management enables not only commercial actors but also public sector organisations to systematically manage and prioritise innovation activities according to concurrent and diverse purposes and priorities. It is a core component of a comprehensive approach to innovation management and a condition to assess the social return of investment across an entire portfolio. The OECD Observatory of Public Sector Innovation (OPSI) has worked in this space for a number of years.
The overarching research question developed in the Conceptual Framework conveys the core objective of SALSA (What is the contribution of small farms and of the related food businesses to sustainable FNS in a wide range of foos systems?) by highlighting that the research follows a systemic approach.
Mission-Oriented Innovation Policies (MOIPs) are one approach that can advance the required transformations. As our colleague Philippe Larrue noted in a 2021 paper, MOIPs are "a co-ordinated package of policy and regulatory measures tailored specifically to mobilise science, technology and innovation in order to address well-defined objectives related to a societal challenge, in a defined timeframe".
The current deliverable (D6.2) is divided into two parts each corresponding to one of its two main audiences, namely:
Part 1 – Scientific Methodology
The OECD Mission Action Lab critically examines the practice of missions and mission-oriented policies as well as their suitability to different problem contexts. Addressing complex challenges comes first, methods come second. The Lab is, thus, not promoting "missions" as the one and only instrument to address complex problems or societal transitions. Rather, we aim to understand when and how mission as an approach to public policies is useful and, sometimes more importantly, when it is not.
Despite the concept's widespread popularity, the terminology surrounding missions can come across as convoluted. This is understandable, given that the term - which denotes ambitious, time bound, cross-sectoral and measurable policy objectives to address grand societal challenges such as climate change mitigation, biosphere restoration or tackling health inequities - has proven to be both deceptively intricate and remarkably versatile.
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.
Food security is a critical challenge – the World Bank includes it among the eight global challenges to be addressed at scale in 2024. Climate shocks, economic instability and geopolitics have significantly impacted crop yields and food supply chains.
Colombia produces more sugar per month on one hectare of land than any other country. This privilege is due to the productivity of sugar cane grown in the Cauca River valley, where 14 processing plants operate nearly year-round to produce sugar, honey, bioethanol, and electrical energy. The cane is supplied by 2750 growers, owners of 75 percent of the 240 000 hecatres planted, and by the sugar mills themselves (25 percent of the area). The sugar cane chain provides more than 286 000 direct and indirect jobs.
Colombia produce más azúcar por mes en una hectárea de tierra que cualquier otro país. El privilegio se debe a la productividad de la caña de azúcar cultivada en el valle del río Cauca, donde 14 plantas procesadoras operan casi todo el año para producir azúcares, mieles, bioetanol y energía eléctrica. La caña es suministrada por 2750 proveedores, propietarios del 75 por ciento de las 240 000 hectáreas sembradas, y por los mismos ingenios o centrales azucareras (25 por ciento del área).