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|Title:||The grey-green divide: Multitemporal analysis of greenness across 10,000 urban centres derived from the Global Human Settlement Layer (GHSL)|
|Authors:||CORBAN CHRISTINA; PESARESI MARTINO; FLORCZYK ANETA; CARNEIRO FREIRE SERGIO MANUEL; SCHIAVINA MARCELLO; EHRLICH DANIELE; NAUMANN GUSTAVO; KEMPER THOMAS|
|Citation:||INTERNATIONAL JOURNAL OF DIGITAL EARTH|
|Publisher:||TAYLOR & FRANCIS LTD|
|Type:||Articles in periodicals and books|
|Abstract:||The presence of green spaces within city centres has been recognized as a valuable component of the city landscape. Vegetation provides a variety of benefits including energy saving, improved air quality, reduced noise pollution, decreased ambient temperature and psychological restoration. Evidence also shows that the amount of vegetation, known as “greenness”, in densely populated areas, can also be an indicator of the relative wealth of a neighbourhood. The “grey-green divide”, the contrast between built-up areas with a dominant grey colour and green spaces, is taken as a proxy indicator of sustainable management of cities and planning of urban growth. Consistent and continuous assessment of greenness in cities is therefore essential for monitoring progress towards the United Nations Sustainable Development Goal 11. The availability of multitemporal greenness information from Landsat data archives together with data derived from the city centres database of the Global Human Settlement Layer (GHSL) initiative, offers a unique perspective to quantify and analyse changes in greenness across 10 323 urban centres all around the globe. In this research, we assess differences between greenness within and outside the built-up area for all the urban centres described by the city centres database of the GHSL. We also analyse changes in the amount of green space over time considering changes in the built-up areas in the periods 1990, 2000 and 2014. The results show an overall trend of increased greenness between 1990 and 2014 in most cities. The effect of greening is observed also for most of the 32 world megacities. We conclude that using simple yet effective approaches exploiting open and free global data it is possible to provide quantitative information on the greenness of cities and its changes over time. This information is of direct interest for urban planners and decision-makers to mitigate urban related environmental and social impacts.|
|JRC Directorate:||Space, Security and Migration|
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