Controlled Environment Agriculture (CEA) is the production of plants, fish, insects, or animals inside structures such as greenhouses, vertical farms, and growth chambers, in which environmental parameters such as humidity, light, temperature and CO2 can be controlled to create optimal growing conditions.
A huge increase in investment for innovation in sustainable agri-food systems (SAS) will be critical for meeting the objectives of the UN Sustainable Development Goals and the Paris Climate Agreement.
Agrifood systems generate significant benefits to society, including the food that nourishes us and jobs and livelihoods for over a billion people. However, their negative impacts due to unsustainable business-as-usual activities and practices are contributing to climate change, natural resource degradation and the unaffordability of healthy diets.
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.
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 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.
India's smallholding farmers face significant challenges. They struggle with erratic weather and the impacts of climate change, pest infestations, and declining yields. Financially constrained, many are trapped by high-interest loans from local lenders. Post-harvest, issues such as crop wastage, logistics, and market access can add their troubles, with up to 40 percent of produce lost. Market fluctuations and the inability to meet quality standards further exacerbate their struggles.
Since the entry into force of the Cartagena Protocol on Biosafety in 2003, concerted efforts have focused on mobilizing international assistance to help developing countries build their institutional capacities in biosafety and meet their obligations under the treaty. The FAO Regional Office for Asia and the Pacific, in cooperation with the Government of Thailand, launched “Asian BioNet” – a regional initiative on capacity building in biosafety of genetically modified (GM) crops in Asia.
This paper argues that Dutch-funded capacity development projects in developing countries for tertiary agricultural education organisations as they are currently carried out are not able to successfully achieve the sustained changes required. That is, changes in how an organisation functions, its cultural norms and rules, and also in how it interacts within wider networks. Rather, long-term institutional change is needed.