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Mapping global urban land for the 21st century with data-driven simulations and Shared Socioeconomic Pathways

Jing Gao, Brian C. O’Neill

2020Nature Communications647 citationsDOIOpen Access PDF

Abstract

Urban land expansion is one of the most visible, irreversible, and rapid types of land cover/land use change in contemporary human history, and is a key driver for many environmental and societal changes across scales. Yet spatial projections of how much and where it may occur are often limited to short-term futures and small geographic areas. Here we produce a first empirically-grounded set of global, spatial urban land projections over the 21st century. We use a data-science approach exploiting 15 diverse datasets, including a newly available 40-year global time series of fine-spatial-resolution remote sensing observations. We find the global total amount of urban land could increase by a factor of 1.8-5.9, and the per capita amount by a factor of 1.1-4.9, across different socioeconomic scenarios over the century. Though the fastest urban land expansion occurs in Africa and Asia, the developed world experiences a similarly large amount of new development.

Topics & Concepts

Land coverSocioeconomic statusGeographyLand useFutures contractPer capitaEconomic geographyPhysical geographyCartographyEnvironmental resource managementRemote sensingEnvironmental scienceEcologyDemographyBusinessBiologyPopulationFinanceSociologyLand Use and Ecosystem ServicesImpact of Light on Environment and HealthUrban Green Space and Health
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