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Interactive maps and data viewers

Land take in urban protected areas, 2012-2018

Land take and the associated soil sealing causes less resilient ecosystems through landscape fragmentation and habitats destruction, soil sealing, decreased carbon sequestration and impaired flood protection. These processes are one of the major drivers of land degradation. Restoring wetlands, peatlands, coastal ecosystems, forests, grasslands and agricultural soils are essential for avoiding biodiversity decline and for climate change adaptation. This dashboard presents an overview of land take processes in protected areas of Functional Urban Areas in EEA and EU member states for the years 2012-2018.

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Land take in urban floodplains, 2012-2018

Land take and the associated soil sealing causes less resilient ecosystems through landscape fragmentation and habitats destruction, soil sealing, decreased carbon sequestration and impaired flood protection. These processes are one of the major drivers of land degradation. Restoring wetlands, peatlands, coastal ecosystems, forests, grasslands and agricultural soils are essential for avoiding biodiversity decline and for climate change adaptation. This dashboard presents an overview of land take processes in floodplains of Functional Urban Areas in EEA and EU member states for the years 2012-2018.

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Land take in Functional Urban Areas, 2012-2018

Land take and the associated soil sealing causes less resilient ecosystems through landscape fragmentation and habitats destruction, soil sealing, decreased carbon sequestration and impaired flood protection. These processes are one of the major drivers of land degradation. Restoring wetlands, peatlands, coastal ecosystems, forests, grasslands and agricultural soils are essential for avoiding biodiversity decline and for climate change adaptation. This dashboard presents an overview of land take processes in Functional Urban Areas in EEA and EU member states for the years 2012-2018. The amount of land take was derived from the Urban Atlas datasets of the Copernicus Land Monitoring Service.

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Urban Green Infrastructure, 2018

Green infrastructure in urban areas consist of vegetated green surfaces, such as parks, trees and small forests, grasslands, but also private gardens or cemeteries. These all contribute to supporting biodiversity, pollinators, carbon sequestration, flood protection and protection against excess heats events. This dashboard facilitates the understanding of the amount of urban green in Functional Urban Areas of the EU and EEA member states.

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