3 results on '"McPhearson, Timon"'
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2. Creating urban green infrastructure where it is needed – A spatial ecosystem service-based decision analysis of green roofs in Barcelona.
- Author
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Langemeyer, Johannes, Wedgwood, Diego, McPhearson, Timon, Baró, Francesc, Madsen, Anders L., and Barton, David N.
- Abstract
As cities face increasing pressure from densification trends, green roofs represent a valuable source of ecosystem services for residents of compact metropolises where available green space is scarce. However, to date little research has been conducted regarding the holistic benefits of green roofs at a citywide scale, with local policymakers lacking practical guidance to inform expansion of green roofs coverage. The study addresses this issue by developing a spatial multi-criteria screening tool applied in Barcelona, Spain to determine: 1) where green roofs should be prioritized in Barcelona based on expert elicited demand for a wide range of ecosystem services and 2) what type of design of potential green roofs would optimize the ecosystem service provision. As inputs to the model, fifteen spatial indicators were selected as proxies for ecosystem service deficits and demands (thermal regulation, runoff control, habitat and pollination, food production, recreation, and social cohesion) along with five decision alternatives for green roof design (extensive, semi-intensive, intensive, naturalized, and allotment). These indicators and alternatives were analyzed probabilistically and spatially, then weighted according to feedback from local experts. Results of the assessment indicate that there is high demand across Barcelona for the ecosystem services that green roofs potentially might provide, particularly in dense residential neighborhoods and the industrial south. Experts identified habitat, pollination and thermal regulation as the most needed ES with runoff control and food production as the least demanded. Naturalized roofs generated the highest potential ecosystem service provision levels for 87.5% of rooftop area, apart from smaller areas of central Barcelona where intensive rooftops were identified as the preferable green roof design. Overall, the spatial model developed in this study offers a flexible screening based on spatial multi-criteria decision analysis that can be easily adjusted to guide municipal policy in other cities considering the effectiveness of green infrastructure as source of ecosystem services. Unlabelled Image • The article addresses the question of where to build green roofs most effectively with regard to citizen needs. • A spatial multi-criteria screening tool for the creation of green roofs is developed. • Ecosystem service deficits are spatially defined by combined social-ecological evaluation criteria. • Finally, the optimal green roof design for an effective ecosystem service provision is determined. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
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3. Using green to cool the grey: Modelling the cooling effect of green spaces with a high spatial resolution.
- Author
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Grilo, Filipa, Pinho, Pedro, Aleixo, Cristiana, Catita, Cristina, Silva, Patrícia, Lopes, Nuno, Freitas, Catarina, Santos-Reis, Margarida, McPhearson, Timon, and Branquinho, Cristina
- Abstract
The urban heat island effect creates warmer and drier conditions in urban areas than in their surrounding rural areas. This effect is predicted to be exacerbated in the future, under a climate change scenario. One way to mitigate this effect is to use the urban green infrastructure as a way to promote the cooling island effect. In this study we aimed to model, with a high spatial resolution, how Mediterranean urban parks can be maximized to be used as cooling islands, by answering the following questions: i) which factors influence the cooling effect and when?; ii) what type of green spaces contributes the most to the cooling effect?; iii) what is the cooling distance of influence? To answer these questions we established a sampling design where temperature and relative humidity were measured in different seasons, in locations with contrasting characteristics of green and grey cover. We were able to model the effect of green and grey spaces in the cooling island effect and build high spatial resolution predicting maps for temperature and relative humidity. Our study showed that even green spaces with reduced areas can regulate microclimate, alleviating temperature by 1–3 °C and increasing moisture by 2–8%, on average. Green spaces with a higher density of trees were more efficient in delivering the cooling effect. The morphology, aspect and level of exposure of grey surfaces to the solar radiation were also important features included in the models. Green spaces influenced temperature and relative humidity up to 60 m away from the parks' limits, whereas grey areas influenced in a much lesser range, from 5 m up to 10 m. These models can now be used by citizens and stakeholders for green spaces management and human well-being impact assessment. Unlabelled Image • Urban planning needs high spatial resolution information to mitigate the urban heat island effect. • Land-cover type (green and grey spaces) and urban morphology strongly influence the cooling island effect. • Parks with high density of trees reduce temperature (1-3° C) and increase relative humidity (2-8%) mostly during summer. • Tree canopy area influences temperature and relative humidity as far as 60 m. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
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