Many experts believe that low-cost mitigation opportunities in agriculture are abundant and comparable in scale to those found in the energy sector. They are mostly located in developing countries and have to do with how land is used. By investing in projects under the Clean Development Mechanism (CDM), countries can tap these opportunities to meet their own Kyoto Protocol obligations. The CDM has been successful in financing some types of agricultural projects, including projects that capture methane or use agricultural by-products as an energy source.
This work summarizes background papers prepared for the World Bank Group with significant input from government counterparts and other development partners. It takes stock of major recent developments and argues that a lot has been achieved in the last decade in terms of production of commodities for export and food consumption, with favorable impact on rural poverty reduction. It also argues that the two factors driving the recent agricultural performance, namely favorable international prices and expansion of the agricultural frontier, have reached their limits.
Jardins partagés, potagers sur les toits, fermes pédagogiques… L’agriculture urbaine est plurielle. C’est aussi vrai pour les fonctions qu’elle joue. Découvrez-en plus dans l’article d’Anne-Laure sur le concept d’agriculture urbaine et ses différentes fonctions mais aussi ses chiffres clés en infographie (p.4-5) Les crises semblent être propices au développement de cette forme d’agriculture. Joana revient sur des initiatives portées en temps de crise au Royaume-Uni, à Cuba ou encore à Lisbonne.
Les Nations unies ont désigné 2014 comme l’Année internationale de l’agriculture familiale. À l’échelle de la planète, la population agricole est estimée à 2,6 milliards de personnes, soit 40 % de la population totale. Avec 1,3 milliard d’actifs, l’agriculture demeure le premier secteur d’emploi au niveau mondial. Dans les pays en développement, là où 70% de la population reste liée aux activités agricoles, l’alimentation des familles dépend essentiellement de la production vivrière et des marchés locaux. Aujourd’hui, défendre l’agriculture familiale ne suffit plus.
This paper discusses how adapting food production systems to respond to consumer demand for healthier diets is a major opportunity to mitigate and adapt to climate change in agro-rural economies. It also addresses how existing technological solutions for climate change mitigation and adaptation need to create more balance between the production and consumption tiers of agrifood systems. Policy dialogue includes managing trade-offs between different sector and stakeholder interests and exploring synergies rather than focusing on exclusivity and competition.
This paper examines reconfigurations of household economies and agrobiodiversity through the experiences and responses of rural households to local manifestations of globalisation and environmental change in the Central Valley of Tarija, Bolivia, from the 1950s to the present. Research participant narratives from seven study communities document a widely experienced regional shift from rain-fed agriculture and pastured livestock production for household consumption to market-oriented production of regionally-specialised commodities.
India's smallholding farmers face significant challenges. They struggle with erratic weather and the impacts of climate change, pest infestations, and declining yields. Financially constrained, many are trapped by high-interest loans from local lenders. Post-harvest, issues such as crop wastage, logistics, and market access can add their troubles, with up to 40 percent of produce lost. Market fluctuations and the inability to meet quality standards further exacerbate their struggles.
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.
Controlled Environment Agriculture (CEA) is the production of plants, fish, insects, or animals inside structures such as greenhouses, vertical farms, and growth chambers, in which environmental parameters such as humidity, light, temperature and CO2 can be controlled to create optimal growing conditions.
This review paper responds to the following questions: 1) can existing adaptation options confer useful responses to various degrees of climate change; 2) have certified coffee programs already implemented adaption options; 3) what (additional) implementation steps are required to adapt coffee production to climate change; and 4) which social-institutional changes are additionally required to enable smallholders to adapt to climate change at farm and landscape scales.