Agricultural research programs that are driven by Agricultural Innovation System concepts usually target to change the way in which low income rural agrarian households in a nation like Nigeria communicate with the market and the decision making strategies pertaining to development of their agri-business and the scarce resources which are at their disposal.
This working paper has been prepared as background for the inclusive agribusiness work stream of the Global Donor Platform for Rural Development’s (GDPRD). The paper outlines the concept of inclusive business and its application to the agri-food sector, maps the current state of play and explores implications for donors and the GDPRD.
There is increasing policy, practice and academic interest in “inclusive innovation”. In simple terms, this is the means by which new goods and services are developed for and/or by those who have been excluded from the development mainstream; particularly the billions living on lowest incomes. However, there are many competing perspectives on inclusive innovation, which this paper resolves into an integrated ‘ladder’ model of different levels of inclusive innovation.
This paper is concerned with the multitude of interleaving issues which emerge when engaging multiple stakeholders in decision making.
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.
Innovation platforms are fast becoming part of the mantra of agricultural research and development projects and programs with an innovation objective.
The paper uses a stochastic frontier analysis of production functions to estimate the level of technical efficiency in agriculture for a panel of 29 developing countries in Africa and Asia between 1994 and 2000. In addition, the paper examines how different components of an agricultural innovation system interact to determine the estimated technical inefficiencies.The paper has been presented at the Southern Agricultural Economics Association Annual Meeting, Birmingham, AL, February 4-7, 2012.
To respond to threats of climate change, Benin has joined the international community in the development and implementation of climate policies.
Innovation systems and science and technology (S&T) projects supported by the World Bank have taken on many forms in the past several years. The Bank's involvement in industrial technology projects started in the 1970s, with Israel and Spain numbering among the first countries to receive support in the form of industrial technology development. This paper reviews the lessons learned in S&T projects that have been supported by the Bank, with an emphasis on the examples of the past decade (1989-2003).
Innovations are fast changing the agricultural landscape driven by the increasing need to shift towards sustainable practices without sacrificing the productivity and profitability of farming. Innovations in technology, institutions, processes, and products have contributed to the growth of agriculture, globally and in developing countries including India and Africa, as observed in the cases of green revolution in cereals; and gene revolution in cotton.