Galvanizing the commitment of agricultural innovation systems (AIS) actors through learning, participation and reflection is a prerequisite for capacity development (CD) initiatives. This phase ensures both a common understanding of the process of CD for AIS as well as to create ownership and high-level support by those that head and lead representative bodies of actors within the system.
The visioning process brings together representatives of actor groups within the agricultural innovation systems (AIS) to build on their common understanding of AIS and the need for a coordinated approach. The process involves a wide spectrum of interested parties including ministries, legislative bodies and representatives of the private sector plus development partners and civil society.
Capacity needs assessment is at the core of the cycle of the TAP Common Framework and it is fundamental to strengthening the agricultural innovation systems (AIS). The Assessment aims to ascertain the level of technical and functional capacity, and in particular the capacity to adapt and respond in the various dimensions. The capacity needs assessment will provide an analysis across the sector to inform the setting of priorities and development of strategic capacity development (CD) interventions.
The design of capacity development interventions is a crucial phase in the capacity development (CD) for agricultural innovation systems (AIS) cycle of the TAP Common Framework. Intervention planning follows from and builds on the visioning exercises and needs assessments carried out beforehand. Options for CD interventions will depend on the country context, ongoing programmes and funding opportunities. Prioritization should also include identification of activities that can take off immediately.
Implementation is the final stage of the capacity development (CD) for agricultural innovation systems (AIS) cycle of the TAP Common Framework. The Cycle consists of five stages:1.Galvanizing Commitment, 2.Visioning, 3.Capacity Needs Assessment, 4.CD Strategy Development and 5.Implementation. The implementation phase builds on the previous realization of a CD strategy, including an action plan, based on the results of a capacity needs assessment. Those individuals or organizations who assume responsibility for a certain activity will be in charge of implementing the plan.
Agricultural research and extension systems are central to unlock the potential of agricultural innovation and achieve the Sustainable Development Goals. Public agricultural research, extension and advisory services are essential for increasing productivity and promoting sustainable agricultural growth and alleviating poverty.
This document is part of the project “Strengthening the adaptive capacity to climate change in the fisheries and aquaculture sector of Chile”, executed by the Undersecretariat of Fisheries and Aquaculture and the Ministry of the Environment, and implemented by the Food and Agriculture Organization of the United Nations, with funding from the Global Environment Facility. The work was implemented in four pilot coves: Caleta Riquelme (Tarapacá); Caleta Tongoy (Coquimbo); Caleta Coliumo (Biobío); and Caleta El Manzano-Hualaihué (Los Lagos).
Scientific advances, technical innovations and application of digital technology have the potential to contribute to a wide-scale structural transformation of food systems. In food safety and process control, as in other areas, technical advances outpace the understanding of how to use these tools to their greatest advantage and how they should be regulated. This thematic brief for the First FAO/WHO/AU International Food Safety Conference outlines key issues - strategic direction of science and innovation in food systems.
Les progrès scientifiques, les innovations techniques et l'application des technologies numériques peuvent contribuer à une transformation structurelle à grande échelle des systèmes alimentaires. Dans le domaine de la sécurité sanitaire des aliments et du contrôle des processus, comme dans d'autres domaines, le rythme du progrès technique est si rapide qu'il est difficile de savoir comment exploiter au maximum les outils qui en découlent et les réglementer.
Rainfed agriculture accounts for more than half of the world’s food production but is facing increasing precipitation variability, driven by climate change. Achieving zero hunger will require improvements in rainwater management to increase productivity. About 45 percent of global rainfed cropland is still under low-input production systems. These are concentrated mostly in lower-income countries, which face multiple challenges in addressing the growing water shortages. Improved water management practices must be combined with the best agronomic practices for enhanced effectiveness.