This paper describes a novel approach to create a collaborative space for grassland innovations contributing to profitability of European grassland farms while preserving environmental benefits. Innovative modes of collaboration between practice and science are enabled by an international thematic network across eight European member states.
This paper represents a guidance to USAID on elements to incorporate into a strategy to improve agricultural research, and a technical brief to guide USAID investments in NARS strengthening. The paper is the final output from a one-day Roundtable which was held on March 5, 2013 and that brought together some 30 specialists in agricultural research and agricultural research systems to discuss which USAID interventions would best strengthen NARS in developing countries.
The purpose of this sourcebook is to pull together into a single document a collection of common sense tips and recommendations based on actual practices and experience around the world.
The paper describes an attempt to improve the uptake of a new agricultural Decision Support System (aDSS). The approach was to design it with an understanding of the successes and failures of predecessors and of the changes in patterns of relevant technology use over time, the “usage context”. Even though its predecessor, IrriSatSMS, showed great potential in pilot seasons, that system failed to be commercialised successfully.
Change in Traditional Ecological Knowledge (TEK) is not easily understood in terms of Western innovation discourses. In fact, innovations in the sense of modern and growth-oriented technologies are common sources for the erosion of TEK. This article brings together current literatures on TEK and innovation studies in addressing questions about the governance of socio-ecological change
This training manual was prepared under the EU-funded project Capacity Development for Agricultural Innovation Systems (CDAIS), a global partnership (Agrinatura, FAO and 8 pilot countries) that aims to strengthen the capacity of countries and key stakeholders to innovate in complex agricultural systems, thereby achieving improved rural livelihoods.
These training materials have been produced to foster the capacity of key members of local communities to practically implement RWHI systems in a cost-efficient manner. The specific target group of these capacity building materials are local community members who are directly involved in the replication and scale-up of RWHI technologies and practices, i.e.
The author shares her experience of participating in a training that was organized by the Tropical Agriculture Platform – Agricultural Innovation Systems (TAP-AIS) project, ‘Developing Capacities in Agricultural Innovation Systems: Scaling up the Tropical Agriculture Platform Framework’, implemented by FAO’s Research & Extension Unit, funded by the European Union as a component of the ‘Development Smart Innovation through Research in Agriculture (DeSIRA): Towards Climate-relevant Agricultural and Knowledge Innovation Systems’ initiative.
Cassava is an important source of food and income in Uganda. However, it cannot be marketed over a long time and distance thereby reducing incomes to growers and traders, leading to less investments and hence low productivity. This report describes the capacity building process and training activities that were done to enable the value chain actors adopt and adapt the pre-and post-harvest practices, and waxing and high relative humidity storage technologies in order to run a successful business enterprise .
This presentation was presented in Addis Ababa (Kenya) and discuss about the initiatives carried out by FAO, CGIAR, Technologies for African Agricultural Transformation (TAAT) and the ILRI in order enhance the capacity development for agriculture on proven Livestock Technology in Eastern Africa