L’Agriculture de Conservation est un système s’inscrivant dans la démarche de l’agroécologie, fondé sur le non-labour, la couverture permanente du sol par des végétaux et des rotations longues et diversifiées. Le système vise à améliorer la productivité sur le long terme en respectant les services écosystémiques générés par l’activité biologique du sol et la matière organique qu’il contient. Les techniques de non-labour se sont développées sur le continent américain et en Australie. Elles prennent à présent de l’ampleur en Europe.
Au sud-est de la commune de Djougou, les eaux de surface à usage pastoral se raréfient depuis les années 1990. Pour en comprendre l’ampleur et les raisons, nous avons développé un outil permettant une analyse socio-spatiale et socio-environnementale, à l’échelle du finage de deux villages, des dynamiques des ressources, de leurs usages et des stratégies d’accès développées par les populations : un SIG « à dires d’acteurs » associant sur le même support une cartographie classique (réseau hydrographique, forêts, voies de communication, villages, etc.) et l’expertise des populations locales.
This booklet describes some recent, stand-out innovations and achievements that are the fruits of this future-oriented partnership, fully supported by the Katalyst project. As Katalyst is in its third phase of operations, some of the milestone achievements of the project are reviewed. The project expects to expand on these successful models to be implemented throughout Bangladesh.
Earlier high-value Tilapia, Koi and Pangus fry are mostly bought by lead farmers only while small farmers use low-yielding local species. A breakthrough was reached during Phase 2 of the Katalyst project, when hatcheries started marketing high-yielding fish fingerlings to small farmers. The promotion included pond management and cultivation improvements that further increased farmers’ productivity.
The case studies use a framework developed jointly by Katalyst project and Springfield Centre to capture changes of market systems supported by the project. They describe developments in input markets of vegetable, farmed fish and in the maize production and how they contribute to an inclusive economic growth with benefits for small and poor farmers and for private companies in Bangladesh.
This publication is providing a glimpse into how Katalyst is realising systemic change by making market systems more inclusive. As a result of the systemic changes, farmers are empowered to increase their incomes and improve their livelihoods, private companies are changing their business models as they recognize the buying power of small farmers and cater to their needs, and the public sector fulfills its role of supporting the poor more effectively by creating conducive enabling environments.
The ‘Licensing Fish Brood Import’ mini case study shows how Katalyst facilitated the linkage between local hatcheries and international brood sources and together with the Department of Fisheries established a standard operational procedure for brood import
Often, farmers excessively use chemical pesticides with detrimental effects on environmental and human health.The ‘Commercialising Bio-Pesticides in Bangladesh’ mini case study explains how the Katalyst project and private sector partner Ispahani Agro Ltd. formulated a policy recommendation on the amendment of the 1985 Pesticide Act to make the proper registration and marketing of “Bio-Pesticides” possible, allowing companies to market and distribute IPM products to a mass audience.
Con el objetivo identificar los factores que inciden en la innovación y la eficiencia de las unidades de producción bovinas de doble propósito en el estado de Veracruz, se integró información de 91 ranchos que participaron en un programa de asistencia técnica, se capturó información sobre uso de 17 componentes tecnológicos y sobre producción de leche por vaca, también se integró información de factores socioeconómicos. Se aplicó un análisis de varianza para la identificación de factores.
En este trabajo se analiza la configuración del Sistema de Innovación del Sector Agroalimentario Mexicano (SNIA). La información generada en un taller con especialistas nacionales se sistematizó para construir una matriz que contiene el listado de actores relevantes en el SNIA y sus relaciones e intensidad de las mismas. Para clasificar la información, se aplicaron escalas ordinales y se calcularon los indicadores de redes denominados densidad y centralidad de grado, utilizando el software Ucinet©; también se efectuó un análisis gráfico de redes, utilizando el software Net Draw©