Although much has been written about climate change and poverty as distinct and complex problems, the link between them has received little attention. Understanding this link is vital for the formulation of effective policy responses to climate change. This paper focuses on agriculture as a primary means by which the impacts of climate change are transmitted to the poor, and as a sector at the forefront of climate change mitigation efforts in developing countries.
Climate change is causing unprecedented damage to our ecosystem. Increasing temperatures, ocean warming and acidification, severe droughts, wildfires, altered precipitation patterns, melting glaciers, rising sea levels and amplification of extreme weather events have direct implications for our food systems. While the impacts of such environmental factors on food security are well known, the effects on food safety receive less attention.
In rural areas of developing countries, more than 70% of the population still depends on agriculture. However, economic crises, unscientific land allocation and climate change issues have hindered attempted gains in agricultural productivity and related rural development outcomes. Technology-driven breakthrough has usually pushed agriculture to the brink of another development that can affect not only plant diversity and yield, but also climatological and socio-economic outcomes.
L'agriculture intelligente face au climat (climate-smart agriculture – CSA) a comme objectifs d'être adaptée au changement climatique et de l'atténuer, tout en contribuant de manière durable à la sécurité alimentaire. Né en 2010 à l'initiative de la FAO, le concept a fait école et se décline désormais en diverses pratiques qui prennent en compte ces objectifs de manière différente. Les pratiques agroécologiques de couverture permanente du sol, par des arbres ou des cultures, sont parmi les plus courantes.
In this paper the authors present the diagnosis and re-design of farm systems as part of an innovation process involving farmers and scientists to improve the sustainability of family farms in south Uruguay. Although were selected farms with a large variation in resource endowment, they shared the main critical points of sustainability: low productivity and deteriorated soil quality.
The Livestock and Irrigation Value Chains for Ethiopian Smallholders (LIVES) project supports the efforts of the GoE to transform the smallholder agriculture sector to a more market-oriented sector. LIVES uses a value chain framework to develop targeted livestock and irrigated agriculture commodities through integrated technical and institutional innovations. Such a framework recognizes that value chain actors add value at different stages of the value chain and that individuals and organizations provide inputs and services to the value chain actors.
La extensión es el proceso de intervención de carácter educativo y transformador, cuyo objetivo es el desarrollo económico y social de las familias rurales, a través de servicios de asistencia técnica, intercambio de tecnología, desarrollo de capacidades y capacitación. Este documento muestra como lograr estos servicios.
En este capítulo se describe la colaboración entre escuela y empresa para producir un mejorador de suelo para uso agrícola y su posible aprovechamiento por los agricultores en el sur de Tamaulipas. La investigación hace referencia a un trabajo premiado de docentes y alumnos de la carrera de Ingeniería en Innovación Agrícola Sustentable del Instituto Tecnológico Superior de El Mante, llevada a cabo durante el periodo julio-noviembre 2015.
Public institutions involved in research that aims to strengthen the productivity, profitability and adaptiveness of industries face a multiplicity of challenges when managing for the emergence of cost effective solutions to problems. We reflect upon the learnings of a Government sponsored Visiting Fellow’s programme that we describe as a knowledge management (KM) intervention within Australia’s primary industries Research, Development and Extension (R, D and E) system.
The availability of an efficient PRRS virus monitoring information system for a large scale project remains a major issue. The purpose of this paper is to present the system developed by CDPQ (Quebec Swine Development Center) to support Quebec’s province-wide PRRS monitoring effort (3000 sites).