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ProjectProgramme / project reportMapping indicators for nature-based solutions: cropland exposed to high, medium, low flood in Thanh Chuong, Vietnam (2017-2021) 2022
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ProjectProgramme / project reportMapping indicators for nature-based solutions: flooding frequency in Con Cuong, Vietnam (2017-2021) 2022
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ProjectProgramme / project reportMapping Indicators for nature-based solutions: flooding frequency in Thanh Chuong, Vietnam (2017-2021) 2022
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Book (series)Technical reportWorld reference base for soil resources 2014
International soil classification system for naming soils and creating legends for soil maps - Update 2015
2015This publication is a revised and updated version of World Soil Resources Reports No. 84 and 103 and presents the international soil classification system. Every soil in the world can be allocated to one of the 32 Reference Soil Groups as defined in this document, and can further be characterized by a set of qualifiers. The resulting soil name provides information on soil genesis, soil ecological function and soil properties relevant for land use and management. The same system, refined slightly , may be used to name the units of soil map legends, thereby providing comprehensive spatial information. By accommodating national soil classification systems, the World Reference Base facilitates the worldwide correlation of soil information. -
Poster, bannerPoster / banner / roll-up / folderThe bioavailability of cadmium and lead in soil and bioaccumulation in barley from a contaminated soil 2018
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Book (stand-alone)Technical reportGlobal status of salt-affected soils
Main report
2024Also available in:
No results found.Salt-affected soils, characterized by high soluble salts (saline) or exchangeable sodium (sodic), impact plant growth and occur globally, especially in arid and coastal regions. Salinization stems from natural causes (e.g. climate change, sea level rise) and human actions (e.g. poor irrigation practices, excessive water use). FAO’s Global Map of Salt-Affected Soils reveals that over 1 381 million hectares, 10.7 percent of global land, are affected, with Australia, Argentina and Kazakhstan among the most impacted countries. Increasing aridity and water demand amplify soil degradation risks, particularly in developing regions.Climate change and water scarcity threaten agricultural productivity, with substantial crop yield losses observed in saline areas. Halophytes and salt-tolerant crops provide a foundation for saline agriculture, yet many salt-affected soils remain unprotected and inadequately regulated. FAO’s INSAS (International Network of Salt-Affected Soils) underscores the need for updated data, harmonized salinity measurements, and sustainable management practices, with enhanced training and policy frameworks.Mitigation strategies like improved drainage, soil amendments, and the cultivation of salt-tolerant plants are recommended. Key recommendations include scaling sustainable practices, investing in salt-tolerant crop markets, improving data collection and water quality monitoring, conserving ecosystems, and fostering cross-sector collaboration. Such integrated efforts aim to boost food production and resilience in affected regions while protecting vital ecosystems.