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.
Innovation systems can be defined in a variety of ways: they can be national, regional, sectoral, or technological. They all involve the creation, diffusion, and use of knowledge. Systems consist of components, relationships among these, and their characteristics or attributes. The focus of this paper is on the analytical and methodological issues arising from various system concepts. There are three issues that stand out as problematic. First, what is the appropriate level of analysis for the purpose at hand?
Following the remarkable success of performance testing in the commercial sector, the Agricultural Research Council's Animal Improvement Institute (ARC–AII) initiated a beef cattle performance testing scheme for smallholder farmers in 1996. The scheme, which became known as Kaonafatsho ya Dikgomo (Sotho for animal improvement), has been running well in the Northern and North West Provinces and is set to spread gradually to the rest of the country.
The aim of this paper is to show the importance of monitoring genetic improvement programmes using the examples of an improvement programme for the Sahiwal breed in Kenya and a progeny testing scheme for Friesian cattle in Kenya. The paper is based on reports by Rege et al. (1992) and Rege and Wakhungu (1992) for the Sahiwal project and Rege (1991a and 1991b) for the progeny testing scheme for Friesian cattle.
In times of market liberalization and structural adjustment, the agricultural sectors of developing countries face profound changes. To seize new market opportunities, farmers need to innovate. In order to innovate, farmers need new technologies and information on how to access and manage them, as well as better support services for the delivery of inputs and knowledge, and better infrastructure for delivering produce to the market.
There is increasing evidence that public organizations dedicated exclusively to research and development (R&D) in agribusiness need systematic management tools to incorporate the uncertainties and complexities of technological and nontechnological factors of external environments in its long-term strategic plans. The major issues are: What will be the agribusiness science and technology (S&T) needs be in the future? How to prepare in order to meet these needs?
La façon donc les organismes de recherche et d'appui aux agriculteurs participent aux processus de développement de l'agriculture et du monde rural fait l'objet de débats. Ceux-ci portent à la fois sur la compréhension des besoins réels des agriculteurs et sur les formes de coordination entre les différents acteurs de la production de connaissances traduisibles en actions. Nous proposons d'illustrer cette problématique à partir d'un programme de coopération franco-argentin Innovaciones, Desarrollo, Exploitationes Agropecuarias, Sociedad local (IDEAS), engagé en Argentine en 1995-1996.
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).
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).