Mapping urban–rural differences in the worldwide achievement of sustainable development goals: land-energy-air nexus

Land use efficiency (LUE), energy efficiency (EE), and air quality are key indicators when assessing urban-related Sustainable Development Goals, yet recent trends and trade-offs in and around urban areas worldwide remain largely unknown. We use an Earth Observation approach to map the land-energy-a...

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Veröffentlicht in:	Environmental research letters 2022-11, Vol.17 (11), p.114012
Hauptverfasser:	Tian, Yunyu, Tsendbazar, Nandin-Erdene, van Leeuwen, Eveline, Herold, Martin
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Sprache:	eng
Schlagworte:	Air quality Comparative analysis Earth Observation Energy Energy efficiency Global North-South differences global SDG monitoring Land use Renewable energy resource use efficiency Rural areas Rural environments Satellites Sustainability Sustainable development Tradeoffs Trends Urban areas urban sustainability
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creator	Tian, Yunyu Tsendbazar, Nandin-Erdene van Leeuwen, Eveline Herold, Martin
description	Land use efficiency (LUE), energy efficiency (EE), and air quality are key indicators when assessing urban-related Sustainable Development Goals, yet recent trends and trade-offs in and around urban areas worldwide remain largely unknown. We use an Earth Observation approach to map the land-energy-air sustainability nexus and highlight distinct urban–rural gradients worldwide (2000–2015). In the Global South, urban areas perform relatively better in land-energy-air sustainability trends than rural areas, which are the least sustainable in our global comparative analysis. Comparatively, urban areas in the Global North tend to be less sustainable than surrounding rural regions. Trade-offs among land-energy-air change directions are mostly related to EE versus air quality in urban areas, while spatial and temporal trade-offs between LUE and EE are more pronounced in suburban and rural areas. Integrating satellite data is crucial for tracking the progress of the land-energy-air nexus and can guide context-specific strategies to account for urban–rural differences in achieving sustainability and creating more livable environments.
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Res. Lett</addtitle><description>Land use efficiency (LUE), energy efficiency (EE), and air quality are key indicators when assessing urban-related Sustainable Development Goals, yet recent trends and trade-offs in and around urban areas worldwide remain largely unknown. We use an Earth Observation approach to map the land-energy-air sustainability nexus and highlight distinct urban–rural gradients worldwide (2000–2015). In the Global South, urban areas perform relatively better in land-energy-air sustainability trends than rural areas, which are the least sustainable in our global comparative analysis. Comparatively, urban areas in the Global North tend to be less sustainable than surrounding rural regions. Trade-offs among land-energy-air change directions are mostly related to EE versus air quality in urban areas, while spatial and temporal trade-offs between LUE and EE are more pronounced in suburban and rural areas. 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subjects	Air quality Comparative analysis Earth Observation Energy Energy efficiency Global North-South differences global SDG monitoring Land use Renewable energy resource use efficiency Rural areas Rural environments Satellites Sustainability Sustainable development Tradeoffs Trends Urban areas urban sustainability
title	Mapping urban–rural differences in the worldwide achievement of sustainable development goals: land-energy-air nexus
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