This publication presents the results and lessons learned from the FAO-Sida supported pilot project “Strengthening capacity for climate change adaptation in land and water management” in Ethiopia, Kenya and Tanzania. The project proposed an integrated package of approaches that addressed the drivers of vulnerability and targeted climate change impacts. It focused on technologies that improve soil health and facilitate water conservation, the diversification of the sources of livelihood and income, and the strengthening of local institutions.
For millennia, humans have modified plant genes in order to develop crops best suited for food, fiber, feed, and energy production. Conventional plant breeding remains inherently random and slow, constrained by the availability of desirable traits in closely related plant species. In contrast, agricultural biotechnology employs the modern tools of genetic engineering to reduce uncertainty and breeding time and to transfer traits from more distantly related plants.
This Doctoral thesis analyzes the Ethiopian agricultural innovation, in particular the case of dairy farming and business in the Addis Ababa milk shed. The innovation capacity assessment model is used to develop the methodology of this study. Data collection, guided by the key components of the innovation system framework, include sector mapping, historical evolution of the sector, resource base analysis, interactions between actors, the policy environment, habits and practices, and resilient features and leverage points.
This paper applies the framework for pro-poor analysis to welfare changes from a CGE-microsimulation model to analyze what are the better or worse models for agriculture modernization, and to estimate the contribution of growth and redistribution to changes in poverty in DRC. The findings indicate that labor-using technological change generates absolute and relative pro-poor effects whereas capital-using technological change leads to immiserizing growth.
Les Nations unies ont désigné 2014 comme l’Année internationale de l’agriculture familiale. À l’échelle de la planète, la population agricole est estimée à 2,6 milliards de personnes, soit 40 % de la population totale. Avec 1,3 milliard d’actifs, l’agriculture demeure le premier secteur d’emploi au niveau mondial. Dans les pays en développement, là où 70% de la population reste liée aux activités agricoles, l’alimentation des familles dépend essentiellement de la production vivrière et des marchés locaux. Aujourd’hui, défendre l’agriculture familiale ne suffit plus.
One option for practically applying innovation systems thinking involves the establishment of innovation platforms (IPs). Such platforms are designed to bring together a variety of different stakeholders to exchange knowledge and resources and take action to solve common problems. Yet relatively little is known about how IPs operate in practice, particularly how power dynamics influence platform processes.This paper focuses on a research-for-development project in the Ethiopian highlands which established three IPs for improved natural resource management.
This publication represents a synthesis of assessments of national agricultural innovation systems in countries of Central Asia, South Caucasus and Turkey. The first chapter gives an introduction of the project “Capacity Development for Analysis and Strengthening of Agricultural Innovation Systems in Central Asia and Turkey”, out of which the current publication reports about one of the project outputs achieved.
This brief is part of the series, A Field Guide for Disaster Risk Reduction in Southern Africa: Key Practices for DRR Implementers, coordinated by the FAO Subregional Office for Disaster Risk Reduction/Management for Southern Africa. The objective of this technical brief is to provide concise and clear descriptions of the key aspects for the promotion of quality seed of appropriate varieties for use by small-scale farmers, in the context of the disaster risk reduction/management (DRR/M) activities in the southern African region.
Agriculture is crucial for the Democratic People’s Republic of Korea (DPRK), involving approximately 50% of the economically active population and contributing an estimated 25% to the gross national product. However, agricultural production has remained low due to soil degradation and pest damage in cabbage and maize (particularly due to lepidopteron pests), amongst other reasons. To help improve productivity and address food security issues, CABI has been working in DPRK since 2002 to introduce integrated pest management (IPM).
Esta tesis en el marco del Proyecto CATIE-MAGA-Noruega, brinda su aporte al componente dos del proyecto: Fortalecimiento de la articulación y sostenibilidad de los sistemas locales de extensión, orientado a establecer 25 sistemas locales de extensión fortalecidos en su articulación y capacidades en la aplicación de enfoques, métodos y herramientas de extensión rural en el municipio y cuyos aprendizajes se difundirán a nivel nacional.