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.
Based on the Wilderness Index developed by the Australian Heritage Commission (R. Lesslie, in litt., 30 May 1998). The wilderness value of any given point is essentially a measure of remoteness from human influence and is assessed on the basis of: remoteness from settlement (settled land or points of permanent occupation), from access (constructed vehicle access routes), and apparent naturalness (remoteness from permanent manmade structures) (Lesslie and Maslen, 1995). The analysis is carried out on a grid, using data from the Digital Chart of the World (DCW), and remoteness is measured as a distance from each grid point to the nearest feature of each class within a given radius (generally 30 km). Wilderness value is the sum of standardised values for each indicator class.Resource Type: Spatial Data / Maps
Emissions from land use change mainly forest loss contribute 17 4% of total change, loss, 17.4% anthropogenic greenhouse gas emissions (IPCC 2007). The UN Framework Convention on Climate Change is currently discussing incentives for Reducing Emissions from Deforestation and forest Degradation in developing countries (REDD). In addition to securing carbon, REDD can deliver co‐benefits, including conservation of forest biodiversity and maintenance of ecosystem services. To help secure co‐benefits, it is useful to find out where high carbon, high biodiversity priority and ecosystem service values overlap.Resource Type: Posters
This tool provides interactive maps that allow users to explore the distribution of carbon density relative to areas high in biodiversity and areas which are nationally protected for different countries around the world. Users can view layers, show or hide layer content, as well as see how the distribution of carbon and biodiversity relates to other geographical features such as rivers, coastlines, and international boundaries.Resource Type: Spatial Data / Maps
This innovative tool provides users with initial estimates of embedded carbon within an identified spatial area such as a protected area or any user-defined polygon drawn on a global map.Resource Type: Tools / Applications
UNEP-WCMC, with support from the German Federal Agency for Nature Conservation (BfN), has launched a new website highlighting the potential for actions on reducing emissions from land use change to secure additional important benefits for biodiversity and ecosystem services (co-benefits). The website demonstrates the utility of spatial analyses to assist decision makers in identifying areas where high carbon, high biodiversity priority, and ecosystem service values overlap, which represent opportunities for securing co-benefits. It showcases UNEP-WCMC’s recent work with in-country partners on developing such analyses and includes an interactive mapping tool that allows users to explore the spatial relationships between carbon and co-benefits.Resource Type: Tools / Applications
Deforestation is a main driver of climate change and biodiversity loss. An incentive mechanism to reduce emissions from deforestation and forest degradation (REDD) is being negotiated under the United Nations Framework Convention on Climate Change. Here we use the best available global data sets on terrestrial biodiversity and carbon storage to map and investigate potential synergies between carbon and biodiversity-oriented conservation.Resource Type: Journal Papers
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
This reports looks at the carbon storage function of protected areas as a contribution to the development of strategies for reducing emissions from land use change. In particular, it is relevant to the current discussions surrounding reducing emissions from deforestation and forest degradation (REDD) under the UN Framework Convention on Climate Change (UNFCCC).Resource Type: Reports
This study combines the best available data on carbon stocks and deforestation with protected area data to estimate the area of forest loss within the protected area network of the humid tropical forest biome during 2000-2005.Resource Type: Reports
Well-planned and carefully implemented REDD+ actions can have positive outcomes that are additional to emissions reductions. Such ‘cobenefits’ include conservation of biodiversity and maintenance of ecosystem services. Potential cobenefits from REDD+ are highly relevant in Nigeria, where services provided by forests make an important contribution to the livelihoods of local communities (Aruofor 2001).
Spatial analyses relating potential co-benefits to carbon stocks can support planning and decisionmaking on REDD+. Simple mapping tools can be used to help identify areas where high carbon, high biodiversity priority, and ecosystem service values overlap, and show how these relate to pressures and management options. This brochure presents results from some initial spatial analyses for Nigeria.Resource Type: Reports
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