Given its superior importance of digital agricultural solutions to overcome challenges in agricultural activities, many of the solutions are in face of challenges to scale in Sub-Saharan Africa (SSA).
The number of theories of innovation systems has grown considerably over the past two decades and several innovation system approaches have been developed. The focus of most has been on the development of technological innovations which create economic value.However, addressing macro-level societal problems – sociotechnical and environmental challengesin which the production, dissemination and use of social and technical knowledge and technology can potentially resolve the problem – has been overlooked.
A central concern about achieving global food security is reconfiguring agri-food systems towards sustainability. However, historically-informed trajectories of agri-food system development remain resistant to a change in direction. Through a systematic literature review, the authors identify three research domains exploring this phenomenon and six explanations of resistance: embedded nature of technologies, misaligned institutional settings, individual attitudes, political economy factors, infrastructural rigidities, research and innovation priorities.
The World Food Programme (WFP) has issued an urgent warning that 45 million people are teetering on the very edge of famine in 43 countries, with the slightest shock likely to push them over the precipice. Globally, up to 811 million people are chronically hungry, with 283 million acutely food insecure.
Against this backdrop, WFP is aiming to target 140 million people in 2021. This document outlines the general context and provides a snapshot of WFP’s work across several areas.
The Webinar with Universities on Capacity Development for Agricultural Innovation - Bringing System-wide Change in Asia-Pacific took place on 16 November 2017, 13:00hrs (CET) under the Tropical Agriculture Platform (TAP) hosted by the Food and Agriculture Organization of the United Nations (FAO). The Asia-Pacific Association of Agricultural Research Institutions (APAARI) organized and moderated the webinar, with support from FAO, the Global Confederation of Higher Education Associations for Agricultural and Life Sciences (GCHERA) and Global Forum for Agricultural Research (GFAR).
High elevation páramo (wetland) ecosystems in the Andes are important water sources for local communities and downstream agricultural and urban users. These headwater catchments, however, are often impacted by human activities (eg agricultural production) that affect both stream water quality and flow. Knowledge about water availability, quality, and use is essential for effective management but is often lacking, particularly in smaller mountain communities.
El objetivo de este estudio realizado en el año 2015 fue analizar el nivel de competitividad de 145 unidades familiares distribuidas en los tres estados. Se empleó un cuestionario para la obtención de datos que facilitaron la detección de los factores que han intervenido para tal situación. Se seleccionaron comunidades representativas de los tres estados (Oaxaca, Guerrero y Chiapas) y se recopiló información socioeconómica por medio de cuestionarios como la principal fuente de datos, la cual se complementó con talleres y pláticas informales.
In this paper, the authors apply an innovative multisectoral diagnostic to examine the entry points for potential interventions in food systems to improve the diets in a rural population in Malawi. The paper is structured as follows: The authors begin by describing the country context and the methods necessary to diagnose and contextualize dietary problems in target populations, prioritizing nutritious foods based on their relative and potential contribution to diets.
One solution that may help farmers face climate challenges is for them to access real-time water-related information by using smart Information and Communication a Technology (ICT).
Accurate and operational indicators of the start of growing season (SOS) are critical for crop modeling, famine early warning, and agricultural management in the developing world. Erroneous SOS estimates–late, or early, relative to actual planting dates–can lead to inaccurate crop production and food-availability forecasts. Adapting rainfed agriculture to climate change requires improved harmonization of planting with the onset of rains, and the rising ubiquity of mobile phones in east Africa enables real-time monitoring of this important agricultural decision.