L’agriculture familiale est de loin la forme d’agriculture la plus répandue au monde, tant dans les pays développés que dans les pays en développement. Elle représente la principale source d’emplois dans le monde. C’est bien plus qu’une simple modalité de production alimentaire. C’est un mode de vie.
La FAO a adopté une approche multidimensionnelle pour aider les exploitants familiaux pauvres à faire face aux difficultés qu’ils rencontrent au quotidien et renforcer leur capacité de création de revenus, afin de réduire la pauvreté rurale.
La plupart des personnes pauvres et qui souffrent de la faim, dans le monde, sont des ruraux qui tirent un maigre revenu de l’agriculture. En 2010, sur les 1,2 milliard de personnes extrêmement pauvres, quelque 900 millions vivait en milieu rural. Environ 750 millions de ces personnes travaillaient dans l’agriculture, généralement comme petits exploitants familiaux (Olinto et al., 2013). On estime que 200 millions de ruraux pauvres pourraient émigrer vers les villes ces 15 prochaines années, mais la plupart d’entre eux resteront toutefois à la campagne.
This study analyse how agricultural extension can be made more effective in terms of increasing farmers’ adoption of pro-nutrition technologies, such as biofortified crops. In a randomised controlled trial with farmers in Kenya, the authors implemented several extension treatments and evaluated their effects on the adoption of beans biofortified with iron and zinc. Difference-in-difference estimates show that intensive agricultural training can increase technology adoption considerably.
Agricultural research and extension systems are central to unlock the potential of agricultural innovation and achieve the Sustainable Development Goals. Public agricultural research, extension and advisory services are essential for increasing productivity and promoting sustainable agricultural growth and alleviating poverty.
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.
Tool 9 provides general information and examples on the latest developments, uses and applications in the area of food biotechnology, and it focuses on genome (or gene) editing. It also provides examples that could help users of this toolkit to explain genome editing, the difference between genetic modification and genome editing and the potential benefits of these new technologies. In addition, it supports users to highlight possible research and development activities ongoing in their own country.
The globalisation of agrifood systems is a mega-trend with potentially profound nutritional implications. This paper describes various facets of this globalisation process and reviews studies on nutritional effects with a particular focus on developing countries. Results show that global trade and technological change in agriculture have substantially improved food security in recent decades, although intensified production systems have also contributed to environmental problems in some regions.
Fairtrade certification has recently gained in importance for various export crops produced in developing countries. One of Fairtrade's main objectives is to improve the social conditions of smallholder farmers. Previous research showed that Fairtrade has positive effects on farmers' sales prices and incomes in many situations. However, more detailed analysis of the effects on food security and other dimensions of household living standard is rare.
Fall Armyworm (Spodoptera frugiperda), or FAW, is an insect native to tropical and subtropical regions of the Americas. In the absence of natural controls or good management, it can cause significant damage to crops. It prefers maize, although it can feed on more than 80 additional species of crops including rice, sorghum, millet, sugarcane, vegetable crops and cotton.