Depuis que les êtres humains sont passés à un mode de vie agraire, les progrès technologiques ont permis des évolutions dans l'agriculture, résultant en de plus grandes variétés et rendements des cultures. Après les révolutions de la sélection végétale et de la génétique, une troisième révolution verte prend le contrôle du monde agricole basé sur l'application des technologies de l'information et de la communication (TIC) telles que les capteurs et actionneurs, l'Internet des objets (IoT : Internet of Things), l'intelligence artificielle, les véhicules aériens sans pilote (UAVs, drones).
L’agriculture doit faire face à un défi majeur : nourrir la population en constante augmentation. Ce secteur a toujours été porté par l’innovation et connaît une accélération de sa transformation avec le numérique et l’Internet des objets (IOT). Explications.
This document is part of the project “Strengthening the adaptive capacity to climate change in the fisheries and aquaculture sector of Chile”, executed by the Undersecretariat of Fisheries and Aquaculture and the Ministry of the Environment, and implemented by the Food and Agriculture Organization of the United Nations, with funding from the Global Environment Facility. The work was implemented in four pilot coves: Caleta Riquelme (Tarapacá); Caleta Tongoy (Coquimbo); Caleta Coliumo (Biobío); and Caleta El Manzano-Hualaihué (Los Lagos).
Le programme de la GIZ intitulé « Amélioration des conditions-cadres dans le secteur privé et financier (ProEcon) » vise à promouvoir le développement économique au Zimbabwe. Parmi les projets conçus à cet effet figure la promotion des cycles économiques en milieu rural. Se fondant sur l’agriculture contractuelle comme instrument efficace, le projet ProEcon appuie l’intégration des petits exploitants agricoles dans les chaines de valeur, l’objectif étant d’augmenter leurs possibilités de revenu.
The global impacts of the climate crisis are becoming ever clearer, and natural resources and ecosystems are being depleted. Despite some progress, hunger and poverty persist, and inequalities are deepening. The world is realizing that unsustainable high external inputs and resource-intensive industrialized systems pose a real danger of biodiversity loss, increased greenhouse gas emissions, shortages of healthy food, and the impoverishment of dispossessed peasants around the world.
In the rapidly changing context of agri-food systems, extension and advisory services (EAS) are expected to provide new roles and services that go well beyond the traditional production-related technology transfer. Consequently, pluralistic EAS systems with diverse actors have emerged with diverse actors, including private and civil society organisations. These multiple EAS actors must adopt innovative entrepreneurship models if they are to act proactively and respond to the increasing diversity of farmers’ demands while staying independent and sustainable.
Women play a key role in agriculture and food security, making up around 48 percent of the agricultural labour force in low-income countries. Despite this, their important contribution is hardly visible and largely unrecognized. Gender equality regards human rights but gender-based constraints in the sector cause also major inefficiencies in value chains, and are a key impediment for rural development, food security, and social and environmental sustainability. Moreover, the severe and multidimensional constraints faced by women hamper their productive potential and livelihoods.
While several studies have shown that genetically modified Bt cotton can benefit smallholder farmers economically, the sustainability of these effects is still unclear and debated controversially between biotechnology proponents and critics. We use unique panel data of 533 cotton farmers, collected in India between 2002 and 2008, to analyze Bt impacts on cotton yield, profit, and household living standards. Results from fixed effects models show that the adoption of Bt cotton is associated with a net yield gain of 24% and a profit increase of 50%.
Agricultural innovation has played a critical role in the economic transformation of developing East Asian countries over the past half century. The Green Revolution—in the form of modern seed varieties, chemical fertilizers, pesticides, and modern machinery—has contributed to increased crop yields and farm incomes, and decreased poverty across the region. Although policy makers’ traditional focus on expanding and intensifying agricultural production has brought many benefits, the focus on productivity has come at a rising cost.
This note is a preview on the agricultural innovation systems (AIS) assessment methdology which is being tested in the nine countries of the European Union-funded TAP-AIS DeSIRA project. It presents the rationale, the steps, ethe expected outputs and outcomes.