This issue of the quarterly journal "Capacity.org" focuses on methods that can help to understand the societal context in which capacity development takes place. One of these methods is systems thinking, in which organisations, sectors and societies are seen as systems composed of elements that interact with each other. 

This research refers to the application of a innovation framework to sustainable livestock development research projects in Africa and Asia. The focus of these projects ranged from pastoral systems to poverty and ecosystems services mapping to market access by the poor to fodder and natural resource management to livestock parasite drug resistance.

This learning module on Applying innovation system concept in agricultural research for development has been prepared to serve as a tool in achieving the objective of strengthening the capacity of project staff and other researchers and actors who are believed to have a key role to play in ushering in market-led agricultural transformation. This includes national, regional, international and private sector agricultural researchers, university lecturers, and others engaged in biophysical as well as social science research.

This paper is a reflection on a research project that defied the conventional technology transfer approach and adopted an approach based on innovation system principles to address fodder scarcity. Fodder scarcity in the project was conceptualized not as lack of technical capacity, but as lack of innovation capacity. This project tried to enhance innovation capacity by promoting appropriate configurations of stakeholders. However, translating this theory and principles into action was fraught with numerous challenges.

This paper uses household and key informant survey data from Ethiopia to: (1) understand the organizational structures that influence change in dairy production systems; (2) explore how local-level innovation system networks are functioning in the smallholder dairy production and (3) identify intervention points for strengthening innovation capacity. Results revealed that public sector actors are the major role players in the dairy production system despite their minor role in marketing linkages. We also found out that the private sector actors play peripheral roles in the network.

Innovation Platforms (IPs) are seen as a promising vehicle to foster a paradigm shift in agricultural research for development (AR4D). By facilitating interaction, negotiation and collective action between farmers, researchers and other stakeholders, IPs can contribute to more integrated, systemic innovation that is essential for achieving agricultural development impacts. However, successful implementation of IPs requires institutional change within AR4D establishments.

Multi-stakeholder (MS) platforms, such as innovation platforms (IP), public-private partnerships (PPP) are becoming more common but what they can achieve in innovation and scaling is limited and depends on different factors. This poster and the broader research paper provide evidence what MS platforms can and cannot achieve in their early phases and give insights about effectiveness and efficiency of Agricultural Research for Development (AR4D) interventions such as CGIAR research programs (CRPs) in low and middle income countries.

This presentation on the innovation system approach was presented to the Oromiya BoARD meeting in Addis Ababa, Ethiopia, 26 July 2007.

Innovation platforms are fast becoming part of the mantra of agricultural research and development projects and programs with an innovation objective.

This poster has been developed by the International Institute of Tropical Agriculture (IITA) and Wageningen University (WUR) under the CGIAR research program on Roots Tubers and Banana (RTB) and describes shortly the science-based methods to identify and overcome bottlenecks for scaling of innovation. It breaks down innovation packages and analyses its individual technological, policy, market and partnership components along a 9-Level Scaling Readiness Ladder science-based methods to identify and overcome bottlenecks for scaling of innovation