An assessment of biodiversity hotspots using remote sensing and GIS

This study focuses on the assessment of the status of world's remaining closed forests (WRCF), population distribution, and protected areas in global bjodiversity hotspots using remote sensing and Geographic Information System (GIS). Conservation International (CI) has identified 25 eco-regions, called biodiversity hotspots that are especially rich in endemic specie s and are particularly threatened by human activities. This study uses globally consistent and comprehensive geo-spatial data sets generated using remote sensing and other sources, and the application of GIS layering methods. The consistent data set has madd it possible to identify and quantify relationships between the WRCF, human population, and protected areas in biodiversity hotspots. It is expected that such information will provide a scientific basis for biodiversity hotspots management and assist in policy formulations at the national and international levels.