The biome inventory – standardizing global biogeographical land units ...

The subdivision of the Earth's terrestrial surface into different biomes, ecozones, bio-climatic realms or other large ecological land units is an essential reference for global biogeographical and ecological studies. Various classification schemes exist. They differ significantly in terms of t...

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Bibliographic Details
Main Authors: Fischer, Jan-Christopher, Walentowitz, Anna, Beierkuhnlein, Carl
Format: Dataset
Language:English
Published: Dryad 2022
Subjects:
FOS Earth and related environmental sciences
Biosphere
Boreal
climate zones
Desert
temperate forest
Tundra
rainforest
Ecozones
land cover
savanna
Online Access:https://dx.doi.org/10.5061/dryad.hqbzkh1jm
https://datadryad.org/stash/dataset/doi:10.5061/dryad.hqbzkh1jm
Description
Summary:The subdivision of the Earth's terrestrial surface into different biomes, ecozones, bio-climatic realms or other large ecological land units is an essential reference for global biogeographical and ecological studies. Various classification schemes exist. They differ significantly in terms of the considered criteria for classification and the underlying methodology of class assignments. Evident divergences between global biome concepts are elusive, weakening hereon based analyses and assumptions. Compilation and standardization are essential for obtaining a framework that enables the comparison of different products. To address this need, we created a catalogue of standardized categorial maps comprising 31 different global products based on various methodological approaches. Those were processed individually to facilitate their use in large-scale biogeographical and ecological analyses. ... : Spatial data of the selected classifications were retrieved from original sources depending on their availability. Certain concepts were manually digitized and geo-referenced as ESRI shapefiles based on scans of latest available map representations extracted from literature. Those classifications and others presented in vector format were transformed to grid data. A template raster file was created to serve as a reference for grid processing. All concepts were harmonized with this standard format at a spatial resolution of 10 km x 10 km, over a global extent from 180°W to 180°E and 90°N to 90°S and with the coordinate reference system set to equal-area Mollweide projection. Any undefined classes were excluded. The values of all raster cells we transformed to numbers by interchanging the names of classes that are commonly character strings with distinct values (e.g., values "1" and "2" were assigned to "Tropical rainforest" and "Savanna"). Classes were sorted according to their centre's latitudinal deviation ...

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