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Mapping the spatial heterogeneity of global land use and land cover from 2020 to 2100 at a 1 km resolution

Tianyuan Zhang, Changxiu Cheng, Xudong Wu

2023Scientific Data169 citationsDOIOpen Access PDF

Abstract

A fine global future land use/land cover (LULC) is critical for demonstrating the geographic heterogeneity of earth system dynamics and human-earth interaction. In this study, we produced a 1 km global future LULC dataset that takes into account future climate and socio-economic changes as well as the impact of simulated results of the former year on temporally adjacent periods. By incorporating the variations in climatic and socio-economic factors, we differentiated LULC suitability probabilities for historical and future periods across representative SSP-RCP scenarios. Then, by using an improved cellular automata model-PLUS to simulate the patch-level changes of various land classes, we iteratively downscaled water-basin-level LULC demands in various future scenarios to a spatial resolution of 1 km. Our dataset achieves a high degree of simulation accuracy (Kappa = 0.94, OA = 0.97, FoM = 0.10) and precisely captures the spatial-temporal heterogeneity of global LULC changes under the combined effects of climate change and socio-economic development. This robust and fine-scale LULC dataset provides valuable spatially-explicit information essential for earth system modeling and intricate dynamics between anthropogenic activities and the environment.

Topics & Concepts

Land coverSpatial heterogeneityEnvironmental scienceScale (ratio)Spatial ecologyClimate changeRepresentative Concentration PathwaysLand useEarth observationClimatologyEarth system scienceEnvironmental resource managementPhysical geographyGeographyClimate modelCartographySatelliteGeologyEcologyAerospace engineeringEngineeringOceanographyBiologyLand Use and Ecosystem ServicesRemote Sensing in AgricultureEnvironmental Changes in China
Mapping the spatial heterogeneity of global land use and land cover from 2020 to 2100 at a 1 km resolution | Litcius