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Book (stand-alone)Technical bookUrban food systems governance
Current context and future opportunities
2020Also available in:
This report presents insights and emerging lessons on food systems governance from the experience of nine cities that have developed urban food interventions – Baltimore, Belo Horizonte, Lima, Medellín, Nairobi, Quito, Seoul, Shanghai and Toronto – and draws on diverse sources of secondary information regarding the experiences of other cities throughout the world. It highlights entry points for the governance of urban food systems issues; common procedural and content-related considerations when addressing those issues; predominant governance models; and operational opportunities for future investment. Successful examples can encourage other local governments to adapt new approaches and innovate within their own context. Every city will need to navigate the political economy to customize their choices and interventions to local circumstances, priority problems and economic opportunities. -
Book (stand-alone)Technical bookDare to Understand and Measure (DaTUM). A literature review of monitoring and evaluation (M&E) frameworks for Climate-Smart Agriculture. 2019
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No results found.The main objective of this report is to review the monitoring and evaluation (M&E) frameworks, tools and guidance documents that are available for climate-smart agriculture (CSA), and in particular for objective (“pillar”) two on adaptation and resilience. The report is a literature review and does not propose a new methodology. It is not an exhaustive list, but summarises the main M&E frameworks. This report represents the first step towards the development of operational guidelines for the design and implementation of national M&E frameworks for CSA, to be developed during the first quarter of 2019. The envisioned operational guidelines will address the core constraints and needs of Member States on both the design and implementation of an M&E system that can simultaneously address CSA and sector reporting requirements for the 2030 Agenda climate instruments. These guidelines will address the principal need expressed by Member States that M&E systems and indicators should be simple and not onerous. The intended users are practitioners designing CSA projects at country level and policy-makers coordinating national-sector monitoring and reporting efforts on climate change under the following three global agreements: the United Nations 2030 Agenda for Sustainable Development, the Sendai Framework for Disaster Risk Reduction, and the United Nations Framework Convention on Climate Change (UNFCCC) Paris Agreement of 2015. -
Book (stand-alone)Technical studyDeep-ocean climate change impacts on habitat, fish and fisheries
FAO Fisheries and Aquaculture Technical Paper No. 638
2019Also available in:
No results found.This publication presents the outcome of a meeting between the FAO/UNEP ABNJ Deep-seas and Biodiversity project and the Deep Ocean Stewardship Initiative. It focuses on the impacts of climatic changes on demersal fisheries, and the interactions of these fisheries with other species and vulnerable marine ecosystems. Regional fisheries management organizations rely on scientific information to develop advice to managers. In recent decades, climate change has been a focus largely as a unidirectional forcing over decadal timescales. However, changes can occur abruptly when critical thresholds are crossed. Moreover, distribution changes are expected as populations shift from existing to new areas. Hence, there is a need for new monitoring programmes to help scientists understand how these changes affect productivity and biodiversity. The principal cause of climate change is rising greenhouse gases and other compounds in the atmosphere that trap heat causing global warming, leading to deoxygenation and acidification in the oceans. Three-dimensional fully coupled earth system models are used to predict the extent of these changes in the deep oceans at 200–2500 m depth. Trends in changes are identified in many variables, including temperature, pH, oxygen and supply of particulate organic carbon (POC). Regional differences are identified, indicating the complexity of the predictions. The response of various fish and invertebrate species to these changes in the physical environment are analysed using hazard and suitability modelling. Predictions are made to changes in distributions of commercial species, though in practice the processes governing population abundance are poorly understood in the deep-sea environment, and predicted