Dans un contexte de controverse sur la capacité des modèles agricoles à répondre conjointement aux enjeux alimentaires, environnementaux et de développement en Afrique, nous analysons les conditions de viabilité d’une agriculture à caractère biologique au Cameroun. La démarche mobilise une enquête par entretiens semi-directifs auprès des acteurs engagés dans les filières de production biologique et une mise en débat des connaissances générées lors d’ateliers participatifs multi-acteurs. Elle met en interaction les connaissances scientifiques, entrepreneuriales et techniques.
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.
Sorghum crop is grown under tropical and temperate latitudes for several purposes including production of health promoting food from the kernel and forage and biofuels from aboveground biomass. One of the concerns of policy-makers and sorghum growers is to cost-effectively predict biomass yields early during the cropping season to improve biomass and biofuel management. The objective of this study was to investigate if Sentinel-2 satellite images could be used to predict within-season biomass sorghum yields in the Mediterranean region.
Establishing food security remains a global challenge; it is thus a specific objective of the United Nations Sustainable Development Goals for 2030. Successfully delivering productive and sustainable agricultural systems worldwide will form the foundations for overcoming this challenge. Smart agriculture is often perceived as one key enabler when considering the twin objectives of eliminating world hunger and undernourishment. The practical realization, deployment, and adoption of smart agricultural systems remain distant due to a confluence of technological, social, and economic factors.
The slow adoption of new agricultural technologies is an important factor in explaining persistent productivity deficits among smallholders in Sub-Saharan Africa (SSA). Farmers delay in particular the uptake of technology packages. Since knowledge constraints are an important barrier to adoption, effective extension approaches are key. In recent decades, extension systems in many SSA countries have moved towards decentralized “bottom-up” models involving farmers as active stakeholders.
Economic pressures continue to mount on modern-day livestock farmers, forcing them to increase herds sizes in order to be commercially viable. The natural consequence of this is to drive the farmer and the animal further apart. However, closer attention to the animal not only positively impacts animal welfare and health but can also increase the capacity of the farmer to achieve a more sustainable production. State-of-the-art precision livestock farming (PLF) technology is one such means of bringing the animals closer to the farmer in the facing of expanding systems.
Les processus naturels et de l’action anthropique ont des conséquences sur la baisse de la productivité des terres agricoles. C’est ainsi que les agriculteurs dans les localités qui sont affectées, mettent en œuvre diverses technologies de gestion des terres en vue d’améliorer la productivité. L’objectif de cette étude était d’évaluer l’effet des composantes de la technologie ‘Microdose’ sur la performance économique et financière des exploitations agricoles dans les localités de Kouritenga et Zondoma au Burkina Faso.
Depuis toujours, l’agriculture repose sur la modification de la constitution génétique des plantes et des animaux. Grâce à la reproduction sélective, d’innombrables générations de cultures et d’animaux ont été sélectionnées en fonction de caractères jugés bénéfiques pour l’être humain.
The concept of technology adoption (along with its companions, diffusion and scaling) is commonly used to design development interventions, to frame impact evaluations and to inform decision-making about new investments in development-oriented agricultural research. However, adoption simplifies and mischaracterises what happens during processes of technological change. In all but the very simplest cases, it is likely to be inadequate to capture the complex reconfiguration of social and technical components of a technological practice or system.
Le projet PPILOW vise à coconstruire, grâce à une approche multiacteurs, des innovations améliorant le bien-être des volailles et porcs élevés en systèmes biologiques et de plein air à bas-intrants. Le projet crée avec les utilisateurs finaux des outils d'auto-évaluation du bien-être, des stratégies innovantes d'élevage améliorant la santé et la robustesse des animaux, favorisant les comportements positifs, évitant la castration des porcelets et l’élimination des poussins mâles de souche ponte.