This flyer illustrates the Tropical Agriculture Platform (TAP), its work and publications.
This paper presents Thorvald II, a modular, highly re-configurable, all-weather mobile robot intended for applications in the agricultural domain. Researchers working with mobile agricultural robots tend to work in a wide variety of environments such as open fields, greenhouses, and polytunnels. Until now agricultural robots have been designed to operate in only one type of environment, with no or limited possibilities for customization.
Rendir un informe anual del trabajo realizado por el IICA es más que un compromiso con la transparencia y la rendición de cuentas; constituye también un medio para reconocer los avances de nuestros Estados Miembros en beneficio de sus pueblos. Los logros que ellos alcanzan gracias a los aportes que les brinda el Instituto los hace mantener su confianza en una organización que de hecho les pertenece.
These guidelines have been elaborated by the CDAIS project to organize policy consultations at national level. In particular, they can be used by project teams (e.g. project managers, facilitators, policy consultants) for the planning of national policy dialogue events to discuss policy related issues emerged during the local consultations at innovation partnership level and require attention of national policy makers.
Many smallholder farmers in developing countries grow multiple crop species on their farms, maintaining de facto crop diversity. Rarely do agricultural development strategies consider this crop diversity as an entry point for fostering agricultural innovation. This paper presents a case study, from an agricultural research-for-development project in northern Ghana, which examines the relationship between crop diversity and self-consumption of food crops, and cash income from crops sold by smallholder farmers in the target areas.
Tool 9 provides general information and examples on the latest developments, uses and applications in the area of food biotechnology, and it focuses on genome (or gene) editing. It also provides examples that could help users of this toolkit to explain genome editing, the difference between genetic modification and genome editing and the potential benefits of these new technologies. In addition, it supports users to highlight possible research and development activities ongoing in their own country.
The Action Planning is a tool that formalizes commitments and plots the route to their implementation. An action plan is intended for the use of the core actors, who will have been identified beforehand in the visioning phase. It determines who does what and when, and is therefore essential to ensuring that things get done and that the goals and visions set out in the capacity development strategy are achieved.
The capacity-focused problem tree pinpoints a core capacity issue, along with its causes and effects. It helps clarify the precise capacity-development objectives that the intervention aims to achieve. The focus should be on functional capacity, but room should be left to acknowledge technical capacity issues too.
This tool is a simple tool to map out the current status of the AIS, and to discover where the actors want to go. The rich picture tool can be used both to describe the current situation and to illustrate future plans. A rich picture opens up discussions and helps participants reach a broad and collective understanding of the situation.
The scoping study explores the nature and dynamics of the agricultural innovation system in order to disclose past and ongoing investments and mechanisms relating to AIS in the country. In particular, the study looks into the various initiatives and projects that support capacity development processes.