Comparison of three global canopy height maps and their applicability to biodiversity modeling: Accuracy issues revealed
Vítězslav Moudrý,
Lukáš Gábor,
Suzanne Marselis,
Petra Pracná,
Vojtěch Barták,
Jiří Prošek,
Barbora Navrátilová,
Jan Novotný,
Markéta Potůčková,
Kateřina Gdulová,
Pablo Crespo‐Peremarch,
Jan Komárek,
Marco Malavasi,
Duccio Rocchini,
Luis A. Ruiz,
Jesús Torralba,
Michele Torresani,
Roberto Cazzolla Gatti,
Jan Wild
Affiliations
Vítězslav Moudrý
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Lukáš Gábor
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Suzanne Marselis
Institute of Environmental Science Leiden University Leiden The Netherlands
Petra Pracná
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Vojtěch Barták
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Jiří Prošek
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Barbora Navrátilová
Global Change Research Institute of the Czech Academy of Sciences Brno Czech Republic
Jan Novotný
Global Change Research Institute of the Czech Academy of Sciences Brno Czech Republic
Markéta Potůčková
Department of Applied Geoinformatics and Cartography, Faculty of Science Charles University Praha 2 Czech Republic
Kateřina Gdulová
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Pablo Crespo‐Peremarch
Geo‐Environmental Cartography and Remote Sensing Group (CGAT), Department of Cartographic Engineering Universitat Politècnica de València València Spain
Jan Komárek
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Marco Malavasi
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Duccio Rocchini
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Luis A. Ruiz
Geo‐Environmental Cartography and Remote Sensing Group (CGAT), Department of Cartographic Engineering Universitat Politècnica de València València Spain
Jesús Torralba
Geo‐Environmental Cartography and Remote Sensing Group (CGAT), Department of Cartographic Engineering Universitat Politècnica de València València Spain
Michele Torresani
Faculty of Agricultural, Environmental and Food Sciences Free University of Bolzano/Bozen Bolzano/Bozen Italy
Roberto Cazzolla Gatti
BIOME Lab, Department of Biological, Geological and Environmental Sciences Alma Mater Studiorum University of Bologna Bologna Italy
Jan Wild
Department of Spatial Sciences, Faculty of Environmental Sciences Czech University of Life Sciences Prague Praha‐Suchdol Czech Republic
Abstract Global mapping of forest height is an extremely important task for estimating habitat quality and modeling biodiversity. Recently, three global canopy height maps have been released, the global forest canopy height map (GFCH), the high‐resolution canopy height model of the Earth (HRCH), and the global map of tree canopy height (GMTCH). Here, we assessed their accuracy and usability for biodiversity modeling. We examined their accuracy by comparing them with the reference canopy height models derived from airborne laser scanning (ALS). Our results show considerable differences between the evaluated maps. The root mean square error ranged between 10 and 18 m for GFCH, 9–11 m for HRCH, and 10–17 m for GMTCH, respectively. GFCH and GMTCH consistently underestimated the height of all canopies regardless of their height, while HRCH tended to overestimate the height of low canopies and underestimate tall canopies. Biodiversity models using predicted global canopy height maps as input data are sufficient for estimating simple relationships between species occurrence and canopy height, but their use leads to a considerable decrease in the discrimination ability of the models and to mischaracterization of species niches where derived indices (e.g., canopy height heterogeneity) are concerned. We showed that canopy height heterogeneity is considerably underestimated in the evaluated global canopy height maps. We urge that for temperate areas rich in ALS data, activities should concentrate on harmonizing ALS canopy height maps rather than relying on modeled global products.
