China will be confronted with many challenges in the years to come, including achieving carbon neutrality, ensuring environmental sustainability, protecting vulnerable people, and ensuring a smooth transition from smallholder to modern agriculture. This policy note discusses how China could further advance its food and agricultural development model, making it greener, more sustainable, and more inclusive.
80 % des aliments que nous mangeons sont le fruit du dur travail des agriculteurs familiaux. Agriculteurs, Pêcheurs, artisanaux, Pasteurs, Forestiers, Agriculteurs de montagne, Peuples autochtones… Ils produisent nos aliments tout en protégeant la planète. Pour continuer à nourrir le monde, ils ont besoin d’avoir accès aux Infrastructures Innovations, Marchés, Informations, Politiques et investissements adéquats.
Present refrigeration and cold transport technologies typically use either diesel fuel (expensive and a source of pollution) and/or electric power (often not available in rural areas). Promoting the expansion of existing technologies for cold-chain development will have the side effects of increasing pollution, greenhouse gas production and associated climate change. Clean cold-chain development is an environmentally sustainable way to achieve essential cooling and reduction in the post-harvest losses.
Les changements climatiques sont intimement liés à l’agriculture et à la sécurité alimentaire. En effet, on peut considérer l’agriculture à la fois comme acteur, victime et sauveur des changements climatiques. Malgré ce triple rôle évident, l’agriculture n’apparait pas en tant que telle dans les négociations.
Climate change is threatening development gains and intensifying global inequities—putting peace and important gains in human well-being at risk.
This report describes the findings of the country study carried out for the design of IFAD project on Restoration of Landscapes and Livelihoods (ROLL P) in Lesotho. Following an IFAD designed project to develop an integrated approach for designing climate-smart and nutrition-sensitive investments, support was provided to undertake a thorough situation analysis for climate, nutrition and their interlinkages and to identify potential pathways and interventions to achieve both climate action and nutrition outcomes.
This report describes the findings of the country study carried out for the design of IFAD Smallholder Agriculture Cluster Project (SACP) in Zimbabwe. Following an IFAD designed project to develop an integrated approach for designing climate-smart and nutrition-sensitive investments, support was provided to undertake a thorough situation analysis for climate, nutrition and their interlinkages and to identify potential pathways and interventions to achieve both climate action and nutrition outcomes.
Food systems contribute 19%–29% of global anthropogenic greenhouse gas (GHG) emissions, releasing 9,800–16,900 megatonnes of carbon dioxide equivalent (MtCO2e) in 2008. Agricultural production, including indirect emissions associated with land-cover change, contributes 80%–86% of total food system emissions, with significant regional variation. The impacts of global climate change on food systems are expected to be widespread, complex, geographically and temporally variable, and profoundly influenced by socioeconomic conditions.
Climate change is causing unprecedented damage to our ecosystem. Increasing temperatures, ocean warming and acidification, severe droughts, wildfires, altered precipitation patterns, melting glaciers, rising sea levels and amplification of extreme weather events have direct implications for our food systems. While the impacts of such environmental factors on food security are well known, the effects on food safety receive less attention.
L'agriculture intelligente face au climat (climate-smart agriculture – CSA) a comme objectifs d'être adaptée au changement climatique et de l'atténuer, tout en contribuant de manière durable à la sécurité alimentaire. Né en 2010 à l'initiative de la FAO, le concept a fait école et se décline désormais en diverses pratiques qui prennent en compte ces objectifs de manière différente. Les pratiques agroécologiques de couverture permanente du sol, par des arbres ou des cultures, sont parmi les plus courantes.