Accountability pressure to demonstrate how research for development projects will bridge the ‘output - outcome gap’ and achieve impacts ‘at scale’ has increased. Consequently, efforts to develop ‘Theory of Change’ (ToC) and impact pathways that steer programs and projects to outcomes have grown within Australia’s Official Development Assistance (ODA) strategy. In response, the cross agency Food Systems Innovation (FSI) initiative piloted the use of ToC thinking within Australian Centre for International Agricultural Research (ACIAR).
This project was undertaken to examine the suitability of 8 keys crops in Bhutan under current conditions and future climate scenarios (RCP 8.5) up to 2050. This was a collaborative initiative between MoAF, CIAT and UNEP, funded through the Asia-Pacific Climate Technology Network and Finance Center (AP-CTNFC). The project had two principal objectives: Objective 1: Build capacities of key technical staff to produce suitability maps for a wider range of crops under different emission scenarios.
Durante la IX Reunión del Grupo Técnico de Investigación, Tecnología, Transferencia e Innovación del CAC el 28 de noviembre de los corrientes en la ciudad de Panamá. Para el PDRR la agricultura familiar necesita de nuevos y fortalecidos sistemas locales de innovación que sean especializados para su actividad, esto requiere de una agenda planificada desde los territorios con el fin de atender las demandas de los productores familiares.
Este trabajo tiene como objetivo conocer el uso de las TIC por parte de los AF. Se busca dar cuenta del proceso de creación social de la innovación y tecnología, desde una concepción de la complejidad de los procesos de innovación y de comunicación, asumiendo a las TIC como medios de comunicación. Este trabajo sigue el marco teórico de la Innovación, incorporando conceptos de la Teoría de la Comunicación.
This paper was a transcript of a power point presentation and was presented inthe Crawford Fund 2017 annual conference in the "Transformational Change Based on Innovation Platforms". The paper discuss about the barriers to adoption digital agriculture and how to overcoming the human barrier of the adoption of these technologies.
The study assesses the relationship of prices of onion at the farm level as well as at wholesale, retail and export level with a view to understand price mechanism involved in the marketing of onion. It and also addresses problems faced by stakeholders in the marketing of their onion
In this paper the High Nature Value (HNV) livestock farming systems are defined. These systems are found mainly in marginal areas where physical factors, and in some cases social factors, have prevented intensification of land-use. NV-LINK is a Horizon2020 project that seeks to improve the socio-economic and environmental sustainability of HNV farming in 10 Learning Areas, and more widely across the EU, by promoting innovation.
For better efforts in development of the farming community, agricultural extension services have always focused on farmers’ resources, activities and capabilities. And this has proved to be an important standing point in the rice growing state Tripura of North East India for attaining self-sufficiency in food grain and developing the economic condition of the farmers. System of Rice Intensification (SRI) has been a boon to the rice farmers and also has posed as an example especially in similar other conditions around the world.
Agricultural organizations are faced with continuous processes of change: economic openness, national and international competition between companies, adaptation to new business management models-Corporate Social Responsibility-, changing markets and the need to comply with regulations and certifications. This has led to the generation of a great demand for knowledge, preparation and motivation of the people who work in the organizations and in the agribusiness environment.
This paper presents Thorvald II, a modular, highly re-configurable, all-weather mobile robot intended for applications in the agricultural domain. Researchers working with mobile agricultural robots tend to work in a wide variety of environments such as open fields, greenhouses, and polytunnels. Until now agricultural robots have been designed to operate in only one type of environment, with no or limited possibilities for customization.