Datasets Available from UNEP-WCMC: Excluding WDPA
Access to UNEP-WCMC datasets is provided on the understanding that you read and consent to be bound by the Terms and Conditions attached. For the purposes of this Agreement the “Data” comprise any of the spatial data and associated attribute data downloadable from the UNEP-WCMC website, excluding the World Database on Protected Areas.
This grid dataset shows the estimated maximum distribution of dry and seasonally dry topical forest. It has a resolution of ~500m. It is derived from the WWF biome map, the MODIS canopy cover dataset and limited to the tropical zone. This dataset was used in the publication " A global overview of the conservation status of tropical dry forests, 2006. Miles, L., Newton, A., DeFries, R., Ravilious, C., May, I., Blyth, S. Kapos, V. and Gordon, J. Journal of Biogeography 33: 491-505."Resource Type: Spatial Data / Maps
This paper reviews the potential for carbon sequestration in dryland ecosystems, which includes forests, but also covers other habitats, such as grasslands, and, importantly, soils. It also considers ways in which carbon storage in drylands affects land degradation issues.Resource Type: Reports
Indigenous and Community Conserved Areas (ICCAs) are managed areas that are voluntarily conserved by local or indigenous communities for conservation and cultural purposes. This handbook is intended as a guide for those who wish to learn about ICCAs and the newly developed ICCA Registry tool, which aims to develop awareness, recognition and documented values of ICCAs through a community-supported database, maps and an interactive, multimedia website. Communities who govern and manage ICCAs will find this handbook particularly helpful to understand how they can contribute to and benefit from the Registry if they wish. This handbook adheres to the UN Declaration on the Rights of Indigenous Peoples and supports the application of bio-cultural community protocols in maintaining the integrity of community knowledge and resources.Resource Type: Reports
This study demonstrates the utility of carbon isotope discrimination in describing genetic adaptation to arid environments, although it is probably most useful in detecting differentiation when the strategy of the species under investigation is to increase water use efficiency, rather than drought-avoidance. The results suggest that populations on the eastern and western sides of the Andes should be treated as separate management units for the purposes of conserving the genetic resource of this species.Resource Type: Journal Papers
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