Rising global demand for vegetable oil during the last few decades has led to a drastic increase in the land area under oil palm. Especially in South- east Asia, the oil palm boom has contributed to economic growth, but it has also spurred criticism about negative environmental and social effects. Here, we discuss palm oil production and consumption trends and review environmental, economic, and social consequences in different parts of the world. The oil palm expansion has contributed to tropical deforestation and associated losses in biodiversity and ecosystem functions.
This article presents lessons from the rich adoption literature for the nascent research on adaptation. Individuals' adoption choices are affected by profit and risk considerations and by credit and biophysical constraints. New technologies spread gradually, reflecting heterogeneity among potential adopters, processes of learning and technological improvement, and policies and institutions. Adaptation is the response of economic agents and societies to major shocks. We distinguish between reactive and proactive adaptation.
Food systems contribute 19%–29% of global anthropogenic greenhouse gas (GHG) emissions, releasing 9,800–16,900 megatonnes of carbon dioxide equivalent (MtCO2e) in 2008. Agricultural production, including indirect emissions associated with land-cover change, contributes 80%–86% of total food system emissions, with significant regional variation. The impacts of global climate change on food systems are expected to be widespread, complex, geographically and temporally variable, and profoundly influenced by socioeconomic conditions.
With 20% of the world's population but just 7% of the arable land, China has invested heavily in crop biotechnology to increase agricultural productivity. We examine research on insect-resistant genetically engineered (IRGE) crops in China, including strategies to promote their sustainable use. IRGE cotton, rice, and corn lines have been developed and proven efficacious for controlling lepidopteran crop pests. Ecological impact studies have demonstrated conservation of natural enemies of crop pests and halo suppression of crop-pest populations on a local scale.
The Agribusiness for Trade Competitiveness Project (ATC-P), branded as Katalyst, is a pioneer market systems development project contributing to sustainable poverty reduction in Bangladesh. It is implemented by Swisscontact under the umbrella of the Ministry of Commerce, Government of Bangladesh. The project has been operating in Bangladesh since 2003 in three phases.
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.
Voices of Change brings you stories that are representative of the wide range of Katalyst’s work across Bangladesh. The project uses the market development approach, which is an indirect way of working to change the existing market systems as a means to benefit the poor people. In these stories, the beneficiaries share with you the constraints they faced as well as the solutions they found to bring about radical changes in their lives.
In 2014-2016, Katalyst project and the Bangladesh Crop Protection Association (BCPA) extended their work by training farmers, women, retailers and pesticide spray men on the safe and judicious use of pesticides (SUP). This initiative improved the ability of farmers to select the right types of pesticide, and to use them appropriately with the correct dosage.
Katalyst project has been facilitating awareness raising on the importance of balanced fertiliser application in Bangladesh since 2006.
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.