{ "culture": "de-CH", "name": "", "guid": "", "catalogPath": "", "snippet": "The widely used normalized difference vegetation index NDVI, and its derived condition a nd productivity indices, give an indication on the current greenness of the biomes as well as on their situation comparing to the long-term average.Even though it is not a physical property of the vegetation cover, its very simple formulation: NDVI = (REF_nir \u2013 REF_red)/(REF_nir + REF_red) where REF_nir and REF_red are the spectral reflectances measured in the near infrared and red wavebands respectively, makes it widely used for ecosystems monitoring.", "description": "

etna<\/SPAN>ndvicopc01122018<\/SPAN>.tif<\/SPAN><\/P>

etna: <\/SPAN>National Dataset Ethiopia<\/SPAN><\/P>

ndvi<\/SPAN>: <\/SPAN>Normalised Difference Vegetation Index<\/SPAN><\/P>

copc<\/SPAN>: <\/SPAN>Copernicus<\/SPAN><\/P>

0112<\/SPAN>: <\/SPAN>Day and Month<\/SPAN><\/P>

2018: <\/SPAN>Year of observation<\/SPAN><\/P>

webm: <\/SPAN>WebMercator projection<\/SPAN><\/P><\/DIV><\/DIV><\/DIV>", "summary": "The widely used normalized difference vegetation index NDVI, and its derived condition a nd productivity indices, give an indication on the current greenness of the biomes as well as on their situation comparing to the long-term average.Even though it is not a physical property of the vegetation cover, its very simple formulation: NDVI = (REF_nir \u2013 REF_red)/(REF_nir + REF_red) where REF_nir and REF_red are the spectral reflectances measured in the near infrared and red wavebands respectively, makes it widely used for ecosystems monitoring.", "title": "etnandvicopc01122018webm.tif", "tags": [ "Ethiopia", "vegetation", "land cover", "index", "green cover" ], "type": "", "typeKeywords": [], "thumbnail": "", "url": "", "minScale": 50000000, "maxScale": 50000, "spatialReference": "", "accessInformation": "Copernicus Global Land Service: https://land.copernicus.eu/global/products/ndvi", "licenseInfo": "" }