A la quête de meilleures conditions de vie, les citadins se sont souvent approprié les technologies de l'information et de la communication (TIC). Ces TIC ont atteint aujourd’hui le milieu rural et il est utile de s’intéresser aux transformations structurelles qu’elles apportent en milieu agricole. Cette quête d’information est au centre de la curiosité qui fonde la conduite de cette recherche. L'imaginaire collectif semble considérer le milieu rural comme l'espace du chaos où la pénibilité déconstruit l'ambition du progrès.
La demande croissante de denrées alimentaires, à la fois en quantité et en qualité, a accru la nécessité d'intensifier et d'industrialiser le secteur agricole. L'Internet des objets est une famille de technologies très prometteuse, capable d'offrir de nombreuses solutions pour la modernisation de l'agriculture.
Depuis que les êtres humains sont passés à un mode de vie agraire, les progrès technologiques ont permis des évolutions dans l'agriculture, résultant en de plus grandes variétés et rendements des cultures. Après les révolutions de la sélection végétale et de la génétique, une troisième révolution verte prend le contrôle du monde agricole basé sur l'application des technologies de l'information et de la communication (TIC) telles que les capteurs et actionneurs, l'Internet des objets (IoT : Internet of Things), l'intelligence artificielle, les véhicules aériens sans pilote (UAVs, drones).
Integrated soil fertility management (ISFM) has been promoted by research and philanthropic organizations as well as governments in an attempt to increase crop yields and improve livelihoods of smallholder farmers in Africa. As this has largely been a continent-wide initiative, it is surprising that there is still scant information on its impact on crop yields and household income. This paper uses a counterfactual model to assess ISFM impact on yields and total household incomes using farm household data from Tamale (northern Ghana) and Kakamega (western Kenya).
Innovation is the main driver of agricultural and rural transformation. This video highlights support provided by FAO to countries in adopting and scaling-up sustainable practices, particularly by promoting agricultural innovation to smallholder farmers. FAO has developed and deployed a Fall Armyworm Monitoring and Early Warning System (FAMEWS).
An extensive discussion in academic literature and policy currently celebrates Multi-Stakeholder Platforms (MSPs) as novel organizational forms that promote knowledge co-creation and innovation uptake among farmers and other stakeholders to address great challenges surrounding agri-food systems. While MSPs represent relatively novel organizations to address critical challenges such as rural poverty, food insecurity, and the negative effects of climate change, little is known on how they influence farmer innovation.
In response to population growth, rising income and urbanisation, the demand for livestock products, such as milk, meat and eggs is growing in Ethiopia. The growing demand for milk products offers opportunities for smallholders to realize better livelihoods. Whereas the growing demand for milk products in Ethiopia is widely recognised, the dairy sector has not been able to produce adequate milk to satisfy this demand, mainly due to low productivity of dairy animals.
This study draws on social-psychology in an attempt to identify the various motivations for technology adoption (TA), including both economic and non-economic, and to gain insights into how and why Brazilian innovative beef farmers make decisions about whether or not to adopt particular technologies.
In Asia and the Pacific, the UN’s Food and Agriculture Organization (FAO) is working with member countries to leverage breakthroughs in information and communication technologies (ICT) to fight hunger, improve nutrition and counter the effects of climate change and extreme weather events that can devastate farmers and their crops. In the Philippines, a country prone to typhoons, aerial drones are taking to the sky to map out at-risk areas of agricultural land to mitigate risk. This innovative practice is also able to quickly assess damages when a disaster strikes.
The Fall Armyworm first landed in West Africa in 2016 and has now spread over the whole continent. It has been recently reported in Yemen and India, and is most likely to spread in South east Asia and South China. This pest invades fields and cause significant damage to crops, if not well managed. FAO’s efforts to support farmers in the affected areas include amongst others the FAO Programme for Action, a global coordination project that brings together development and resource partners to maximize coordinated results and minimize duplications.