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BookletCorporate general interestEmissions due to agriculture
Global, regional and country trends 2000–2018
2021Also available in:
No results found.The FAOSTAT emissions database is composed of several data domains covering the categories of the IPCC Agriculture, Forestry and Other Land Use (AFOLU) sector of the national GHG inventory. Energy use in agriculture is additionally included as relevant to emissions from agriculture as an economic production sector under the ISIC A statistical classification, though recognizing that, in terms of IPCC, they are instead part of the Energy sector of the national GHG inventory. FAO emissions estimates are available over the period 1961–2018 for agriculture production processes from crop and livestock activities. Land use emissions and removals are generally available only for the period 1990–2019. This analytical brief focuses on overall trends over the period 2000–2018. -
BookletHigh-profileFAO Strategy on Climate Change 2022–2031 2022The FAO Strategy on Climate Change 2022–2031 was endorsed by FAO Council in June 2022. This new strategy replaces the previous strategy from 2017 to better FAO's climate action with the Strategic Framework 2022-2031, and other FAO strategies that have been developed since then. The Strategy was elaborated following an inclusive process of consultation with FAO Members, FAO staff from headquarters and decentralized offices, as well as external partners. It articulates FAO's vision for agrifood systems by 2050, around three main pillars of action: at global and regional level, at country level, and at local level. The Strategy also encourages key guiding principles for action, such as science and innovation, inclusiveness, partnerships, and access to finance.
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BookletCorporate general interestMicrobiome: The missing link?
Science and innovation for health, climate and sustainable food systems
2019Also available in:
No results found.Unhealthy diets now pose a greater risk to morbidity and mortality than unsafe sex, alcohol, and drug and tobacco use combined. They are at the root of the global obesity and diet-related non-communicable disease (NCD) pandemic. The ways of food production that lead to these unhealthy diets also pose a major threat to climate stability and ecosystem resilience, and constitute the most important driver of environmental degradation and natural resources depletion. In the short term, there is little that we can do to curb the global demand for food and other products that depend on biological resources. Demand will continue to rise as the world population grows to ten billion before eventually shrinking again. However, by taking a bio-economy approach, we can alter the nature of this demand and the processes through which the food system and bioeconomy meet that demand. This approach could accommodate the necessary increases in agricultural production, without continuing to degrade our natural resource base. In fact, bioscience is uncovering the pathways and common drivers behind the triple challenge of obesity and NCDs, climate change, and biodiversity loss. In the process, microbiology and the inter-disciplinary study of the microbiome have rediscovered microorganisms as a vast and untapped natural resource with great potential to shift the balance of the ‘nature – food systems – people’ equation back into the healthy zone.