The only specialized multilateral development institution focused exclusively on rural development, IFAD has successfully used agriculture as a means of poverty reduction – contributing ~USD 22 billion in funding to date1. About 90% of IFAD's portfolio is focused on Low to Middle Income (LMI) countries. IFAD stands out with its nutrition and gender-sensitive lenses coupled with investments in climate-resilient agriculture – mainstreaming nutrition, gender, and climate change work in agriculture.
Presentation by David Neven, Senior Economist at FAO (Food and Agriculture Organization of the United Nations), for the Global Forum for innovations in agriculture (Abu Dhabi, 20-21 March 2017), an event to present solutions and inspire debate across all types of food production.
La innovación es una condición fundamental para un crecimiento económico sostenido, que reduzca las disparidades sociales existentes en el país y permita un uso sustentable de sus recursos naturales.
Este libro tiene como propósito ampliar el campo de análisis, interpretación y discusión en torno a un modelo conceptual y empírico de articulación del enfoque de cadena productiva (Ley 811 de 2003), y de sistemas territoriales de innovación (Ley 1876 de 2016), mediante enfoques que permitan un análisis del cambio tecnológico y organizacional en las cadenas productivas, a partir de herramientas estratégicas, prospectivas y participativas.
The challenges faced by agricultural innovation systems (A.I.S.) are complex to solve, however, the authors consider that understanding the processes of innovation and development (R&D), sustainability, use of information and communication technologies, training, and outreach, as the focus of discussion in this review, have great potential to close the gaps in the system; as well as exploring strategies, projects and best practices that dynamize the operation of the system. The objective of this article is to review the literature on A.I.S.A.
This paper aims to explore the new challenges encountered in the education of innovation and entrepreneurship in agricultural colleges and universities as well as the new perspectives and possibilities brought by the new agricultural construction for the education of innovation and entrepreneurship in agricultural colleges and universities. Based on the perspective of the construction of new agricultural science, schools need to integrate innovation and entrepreneurship education with all educational work in schools.
Developing irrigation technology for a diversity of farmers with rapidly changing demands can be hard for designers, especially when the technology concerns smallholders in developing countries. Innovation networks supporting the adopted technology increasingly include both globalised players and very local actors, making innovation intermediaries capable of translating innovation issues for different actors increasingly indispensable.
According to the literature on regime tran-sition, niches are sources of innovation that may lead to the transformation of the dominant regime, if pro-cesses at other level of the system –the landscape and the mainstream regime -are supportive. A focus on actors involved in the transition process and the analysis of their specific role in knowledge networks can help assessing the robustness of a specific niche and its growth potential. Knowledge systems, and in particular the dynamics of local and expert knowledge, have in fact a key role in innovation mod-els.
The aim of this article is to show the relevance of the sociology of market agencements (an offshoot of actor-network theory) for studying the creation of alternative agri-food networks. The authors start with their finding that most research into alternative agri-food networks takes a strictly informative, cursory look at the conditions under which these networks are gradually created. They then explain how the sociology of market agencements analyzes the construction of innovative markets and how it can be used in agri-food studies.
Agriculture 4.0 is comprised of different already operational or developing technologies such as robotics, nanotechnology, synthetic protein, cellular agriculture, gene editing technology, artificial intelligence, blockchain, and machine learning, which may have pervasive effects on future agriculture and food systems and major transformative potential. These technologies underpin concepts such as vertical farming and food systems, digital agriculture, bioeconomy, circular agriculture, and aquaponics.