The United Nations predicts that we need to increase food production globally by 70 percent to feed 9.6 billion people by 2050. But at the same time, given the climate crisis, we need to significantly reduce the use of energy, water, and land needed to produce food and lower its carbon footprint. In other words, we must figure out how to produce and distribute more food using fewer resources and emissions. We must learn to do farming better with less.
Climate variability and change threaten and impact negatively on biodiversity, agricultural sustainability, ecosystems, and economic and social structures – factors that are all vital for human resilience and wellbeing. To cope with these challenges, embracing sustainability in food production is therefore essential. Practising sustainable agriculture is one way of ensuring sustainability in pro-poor farming communities in low-income countries.
A complex systems approach to innovation provides rich insights into the drivers, barriers, and key elements for innovation in rural systems. Through a case study of dry direct seeding (DDS) in smallholder systems in Laos, this article reveals a “perfect storm” of challenges and opportunities resulting in rapid adoption. Labour shortage, climate variability, and machinery availability are key factors.
Connecting science with policy has always been challenging for both scientists and policy makers. In Ghana, Mali and Senegal, multi-stakeholder national science-policy dialogue platforms on climate-smart agriculture (CSA) were setup to use scientificevidence to create awareness of climate change impacts on agriculture andadvocate for the mainstreaming of climate change and CSA into agriculturaldevelopment plans.
The document summarizes the GEF Council's decision to approve the Strategic Approach to Enhancing Capacity Building in November 2003. In approving the strategy, the Council requested the GEF Secretariat, in collaboration with the Implementing Agencies and the monitoring and evaluation unit, to undertake further work to operationalize it.
This article presents a multi-stakeholder framework for intervening in root, tuber, and banana seed systems and in other VPCs. These crops are reproduced not with true seed but with vegetative planting material (e.g., roots,tubers, vines, stems, and suckers), called “seed” in this article. Seed systems for VPCs need to be designed differently than those for true seed, and coordination among stakeholders in seed systems is crucial
This publication presents the GEF-6 biodiversity strategy for 2014-2018. As the financial mechanism of the Convention on Biological Diversity (CBD) the GEF provides funding to help countries implement the Strategic Plan for Biodiversity, 2011-2020, and achieve the Aichi Targets. I am pleased that donors during the recently completed replenishment pledged $1.296 billion towards the biodiversity focal area for GEF-6, making it the largest individual focal area within the GEF.
To meet multiple environmental objectives, integrated programming is becoming increasingly important for the Global Environmental Facility (GEF). Integration of multiple environmental, social and economic objectives also contributes to the achievement of the Sustainable Development Goals (SDGs) in a timely and cost-effective way. However, integration is often not well defined. This report therefore focuses on identifying key aspects of integration and assessing their implementation in natural resources management projects.