Agricultural innovations are seen as a key avenue to improve nutrition and health in smallholder farm households. But details of these agriculture-nutrition-health linkages are not yet well understood. While there is a broad literature on the adoption of agricultural technologies, most studies primarily focus on impacts in terms of productivity and income. Nutrition and health impacts have rarely been analyzed. In this article, we argue that future impact studies should include nutrition and health dimensions more explicitly.
The use of mobile phones has increased rapidly in many developing countries, including in rural areas. Besides reducing the costs of communication and improving access to information, mobile phones are an enabling technology for other innovations. One important example are mobile phone based money transfers, which could be very relevant for the rural poor, who are often underserved by the formal banking system. We analyze impacts of mobile money technology on the welfare of smallholder farm households in Kenya.
In Sub-Sahara Africa, adoption rates of improved crop varieties remain relatively low, which is partly due to farmers’ limited access to information. In smallholder settings, information often spreads through informal networks. Better understanding of such networks could potentially help to spur innovation and farmers’ exposure to new technologies. This study uses survey data from Tanzania to analyze social networks and their role for the spread of information about improved varieties of maize and sorghum.
For millennia, humans have modified plant genes in order to develop crops best suited for food, fiber, feed, and energy production. Conventional plant breeding remains inherently random and slow, constrained by the availability of desirable traits in closely related plant species. In contrast, agricultural biotechnology employs the modern tools of genetic engineering to reduce uncertainty and breeding time and to transfer traits from more distantly related plants.
Genetically engineered (GE) foods apply new molecular technologies to Widely adopted in the United States, Brazil, and Argentina for the p corn, soybeans, and cotton, they are practically banned in Europe and tigh throughout the world. We have found that GE foods have significantly incr of corn, soybean, and cotton, and lowered their prices, thus improving food foods have already contributed to a reduction in the use of pesticides and
Various authors have identified the potential relevance of innovation system approaches for inclusive innovation, that is, the means by which new goods and services are developed for and by the poor. However, it is still a question how best to operationalize this. Innovation platforms (IPs) represent an example of putting an inclusive innovation system approach into practice by bringing different types of stakeholders together to address issues of mutual concern and interest with a specific focus on the marginalized poor.
Le système d’innovation est un concept clé pour l’analyse des changements socio-techniques qui renvoie à une structure et à des fonctions qui contribuent à développer et à diffuser l’innovation. Cet article propose une approche originale d’analyse d’un système d’innovation au travers des processus de diffusion spatiale d’un produit agricole : l’anacarde (noix de cajou). Les formes et les vitesses de propagation des vergers d’anacardiers sont analysées et mises au regard de la structure et des fonctions du système d’innovation.
L’action locale est aujourd’hui confrontée au problème de changements climatiques, tant en termes de réduction des émissions de gaz à effet de serre que de gestion des impacts potentiels. La question particulière de l’adaptation aux changements climatiques émerge ainsi progressivement sur la scène locale et semble se généraliser depuis les évolutions législatives (Loi « Grenelle II ») qui rendent obligatoire la réalisation de plans climat-énergie territoriaux pour les collectivités de grande taille et des schémas régionaux climat-air-énergie.
Esta presentación muestra una solución sostenible para los pequeños productores y las familias rurales, particularmente por medio de nuevas tecnologías.
Esta herramienta permitirá a los actores de los movimientos de agricultura orgánica de los países diagnosticar el estado de sus sistemas nacionales de control de la producción orgánica (SNC) y elaborar, de manera participativay con el apoyo del IICA, planes de acción que fortalezcan las instituciones e instancias asociadas al control de la producción orgánica en el ámbito nacional, brindando así una mayor garantía de la calidad de este tipo de productos a los consumidores de los mercados nacionales e internacionales.