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Brochure, flyer, fact-sheetClimate Risk Toolbox
Quick user's guide
2022Also available in:
No results found.The Climate Risk Toolbox (CRTB) was developed to support climate-resilient project design. The tool is an open-access resource, hosted on the Hand-in-Hand Geospatial platform, allowing users to obtain a climate risk screening in a few simple steps. A key element in sustainable and transformative development in agriculture is ensuring that investments are designed with robust evidence about both past and future climate variability, seasonality, and extremes. Climate risk screening ensures that the linkages between hydrological, meteorological, and climatological hazards and impacts on agricultural systems are fully understood well in advance to strengthen project formulation and implementation. The CRTB simplifies climate risk screenings. It can be used by development practitioners for high-level screening at an early stage of planning processes or project design. This guide provides a quick overview of the tool to promote it and support its mainstreaming. -
ArticleEarth Map: A Novel Tool for Fast Performance of Advanced Land Monitoring and Climate Assessment 2023
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No results found.Earth Map (https://earthmap.org/) is an innovative and free application developed by the Food and Agriculture Organization of the United Nations that was designed in the framework of the Food and Agriculture Organization of the United Nations–Google partnership and facilitates the visualization, processing, and analysis of land and climate data. Earth Map makes petabytes of multitemporal, multiscale, multiparametric, and quasi-real-time satellite imagery and geospatial datasets available to any user thanks to the power of Google Earth Engine (https://earthengine.google.com/) and a point-and-click graphical user interface. These are further complemented with more planetary-scale analytical capabilities so that global and local changes and trends on Earth’s surface can be easily detected, quantified, and visualized. It does not require users to master coding techniques, thereby avoiding bottlenecks in terms of technical capacities of nonexpert users. It ultimately paves the way for countries, research institutes, farmers, and members of the general public to access critical knowledge to develop science-based policy interventions, leverage investments, and sustain livelihoods. We provide a full overview of Earth Map’s software architecture, design, features, and datasets. To illustrate the possible applications of the tool, different examples are presented including a few case studies that show how quick historical analysis of environmental and climate parameters can be performed and research questions answered. The examples demonstrate that Earth Map is a comprehensive and user-friendly tool for land monitoring and climate assessment and that it has the potential to be used to assess land use, land use change, climate change impacts, and natural disasters. -
ProjectEstablishing a Portal for Water Accounting Information - MTF/GLO/231/ASB 2021
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No results found.Seventy percent of water withdrawals are made for agricultural purposes, making it the sector that consumes the most water globally. Demands for water are expected to grow further in the near future, as it is estimated that agricultural production needs will rise by nearly 50 percent by 2050. At the same time, the issue of water scarcity is estimated to affect nearly half of the global population for at least one month per year. This situation is also expected to worsen, with a possible 4.8–5.7 billion people periodically not having access to water by 2050. For these reasons, sustainable water management is of crucial importance to the sector. A way to mitigate both issues is through water accounting. Water accounting is defined as the systematic study of the status of and trends in water supply, demand, accessibility and use in targeted areas. The information gathered through water accounting supports effective decision-making with regards to water management and leads to increased water productivity, which is critical to achieving food and water security as global needs grow. This project was formulated to develop a Portal for Water Accounting within FAO’s Global Information System on Water and Agriculture (AQUASTAT). The Portal was designed to be fully compatible with both AQUASTAT and the Water Productivity Open-access Portal (WaPOR), as well as FAO’s corporate Geospatial Information System that was developed through the Hand-in-Hand Initiative. These tools can assist stakeholders in making evidence-based decisions with regards to water management as a means of increasing water productivity worldwide.
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