The CDAIS project, funded by the EU and jointly implemented by Agrinatura and FAO, enhances innovation in agriculture by improving the functional capacities of individuals, organizations and systems. It brings partners together and uses continuous learning cycles to address the challenges and opportunities in and around selected ‘innovation niche partnerships’ in eight pilot countries in Central America, Africa and Asia.
El proyecto CDAIS, implementado por FAO y Agrinatura con el apoyo financiero de la Unión Europea. sostiene la innovación en la agricultura a través del mejoramiento de las capacidades funcionales de los individuos, de las organizaciones y de los sistemas. Reúne a los diferentes socios y utiliza un ciclo de aprendizaje permanente para responder a los desafíos y oportunidades dentro y fuera de los “nichos de innovación” seleccionados en ocho países pilotos de América Central, África y Asia.
The CDAIS project, funded by the EU and jointly implemented by Agrinatura and FAO, enhances innovation in agriculture by improving the functional capacities of individuals, organizations and systems. It brings partners together and uses continuous learning cycles to address the challenges and opportunities in and around selected ‘innovation niche partnerships’ in eight pilot countries in Central America, Africa and Asia.
El proyecto CDAIS, implementado por FAO y Agrinatura con el apoyo financiero de la Unión Europea, sostiene la innovación en la agricultura a través del mejoramiento de las capacidades funcionales de los individuos, de las organizaciones y de los sistemas. Reúne a los diferentes socios y utiliza un ciclo de aprendizaje permanente para responder a los desafíos y oportunidades dentro y fuera de los “nichos de innovación” seleccionados en ocho países pilotos de América Central, África y Asia.
Several posters have been created on the occasion of the 5th TAP Partners Assembly (Laos, 20-22 September 2017) to show recent activities and achievements in the eight pilot countries of the CDAIS project.
The report builds on the 'towards a vision for agricultural innovation in Chile in 2030' report and is further based on a series of background papers and a consultation process that took place between December 2010 and May 2011. The current study is the third in a series of three that were agreed between the Government of Chile and the World Bank to support the development of a long-term agricultural innovation strategy. The first paper reviewed the functioning of the three main public technological institutes and recommended how their performance can be improved.
This report shows some initial results about the research project entitled GlobalOrg, on a Brazilian case study, investigating the sustainability of tropical fruit organic farming in a global food chains perspective. It was performed an analysis about the production strategies of certified units of a familiar smalholders cooperative from Itápolis-SP-Brazil.
Large-scale agriculture is increasing in anthropogenically modified areas in the Amazon Basin. Crops such as soybean, maize, oil palm, and others are being introduced to supply the world demand for food and energy. However, the current challenge is to enhance the sustainability of these areas by increasing efficiency of production chains and to improve environmental services.
In 2010 the Brazilian Government established a goal to reduce the emissions of greenhouse gases (GHG) by agriculture from 36.1 up to 38.9% in ten years (2010 -2020). To contribute for reaching part of this purpose in Tocantins State, Embrapa and other research and extension services partners have been conducting a project of technology transference on sustainable agricultural practices, including integrated crop-livestock-forestry (ICLF), since 2012.
In Pium, Tocantins state, Brazil, in 2012 Embrapa developed a technology transference project in partnership with the state?s rural extension service for the consolidation of low carbon emissions agriculture. The goal was to recover the degraded grasslands of the Trigueira farm (49°1'37.44"W and 10°24'58.84"S) with low cost using a crop-livestock system.