Mapping green infrastructure and socioeconomic indicators as a public management tool: the case of the municipalities of Andalusia (Spain)

Martínez, Jorge L.; Milán-García, Juan; López, Nuria Rueda; Valenciano, Jaime de Pablo

doi:10.1186/s12302-020-00418-2

Cited by 8 publications

(5 citation statements)

References 41 publications

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“…One of the strengths of the methodology proposed in this paper is the multi-step approach to the green infrastructure planning process, which was based on reliable, current, and locally relevant knowledge. A collection of the existing knowledge on ecosystems and their condition, as well as the cultural heritage of the municipality, resulted in the inclusion of both biophysical and sociocultural indicators, similar to the study of Caparrós et al [37]. The inclusion of these indicators was crucial to guaranteeing that the green infrastructure responded to the environmental and cultural needs of the municipality, as well as its inhabitants.…”

Section: Discussionmentioning

confidence: 96%

“…Regarding the biophysical analysis, the considered elements were grouped into four main domains: morphology, which included the altimetry, hypsometry, lithology, and slopes and downslope direction analysis; hydrology and soils, which included the river streams and types of soil; climatology, which included the solar radiation, wind, precipitation, and temperature; and finally, biology, which included vegetation and fauna [36]. All these elements were obtained and analyzed through a geographical information system, similar to other studies [37,38]. As for the cultural, educational, and leisure heritage analysis, the following variables were considered: land cover and land use, demography, architectural and archaeological heritage, and landscape elements.…”

Section: General Framework For the Green Infrastructure Designmentioning

confidence: 99%

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Planning a Green Infrastructure Network from Theory to Practice: The Case Study of Setúbal, Portugal

2021

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Green infrastructure is a strategically planned network of natural and semi-natural areas that are designed and managed to deliver a wide range of ecosystem services. It incorporates green and blue spaces and other physical features in terrestrial and marine areas. Despite the increase of green infrastructure planning in several regions of the world, such as Europe and North America, there is still a complexity and diversity associated with the concept of green infrastructure that influences the variance in approaches of green infrastructure planning. This research proposed a multi-criteria method that was organized in four steps for designing a green infrastructure for the municipality of Setúbal (Portugal) that efficiently integrated the ecological and social components in the planning and policymaking processes, as well as green infrastructure planning principles. The results show a green infrastructure that comprised around 91% of the territory of the case study, organized into two systems: the fundamental green infrastructure, which was related to the areas whose ecological interests were more favorable, and the urban green infrastructure, which aimed to enhance and intensify ecological processes in built-up areas. This approach focused on the protection of ecological functions, the preservation of the cultural and natural heritage, and the prevention of risks at a local level; it also followed several green infrastructure planning principles, namely, connectivity, multifunctionality, diversity, integration, and applicability.

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Section: Discussionmentioning

confidence: 96%

Section: General Framework For the Green Infrastructure Designmentioning

confidence: 99%

Planning a Green Infrastructure Network from Theory to Practice: The Case Study of Setúbal, Portugal

2021

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“…Additional services provided by the GI include social benefits such as inclusion and civic engagement, recreation and psychological services [18,28,29], and aesthetic enjoyment and education [1]. Besides, economic benefits mainly comprise property value enhancement [30][31][32], goods and food production [18,33,34], and they attract a skilled workforce [22]. The reduction of social vulnerability and increased access to green space [14] are other examples of these services.…”

Section: Literature Reviewmentioning

confidence: 99%

“…Mitchell and Popham [40], de Vries et al [41], Grahn and Stigsdotter [42], Akpinar et al [23], Douglas et al [24], van den Bosch and Nieuwenhuijsen [22], van Vliet and Hammond [25], Caparrós Martínez et al [34] Aesthetics and positive valuation Nowak et al [43], Jim and Chen [44], Price [45], Zhou and Parves Rana [1] Zwierzchowska et al [29] Perviousness Filtration non-point pollutants Arnold and Gibbons [46], Characklis and Wiesner [47], Transportation Research Board [48] Wastewater cost reduction or rainfall interception…”

Section: Service Benefits Sourcementioning

confidence: 99%

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Understanding Green Street Design: Evidence from Three Cases in the U.S.

Rodríguez-Valencia

Ortiz-Ramirez

2021

Sustainability

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World cities need more green areas to promote social, economic, and environmental well-being; the problem, however, is that the space available for green infrastructure (GI) within the built environment is limited. Finding empty, free, or underutilized spaces within the built environment to be repurposed for GI has been a challenge. Streets are public, numerous, and evenly distributed, being a desirable place to fulfill this requirement. However, they are also heavily regulated public spaces, where design is standardized, and ruled by codes and manuals. Some cities in the US have implemented an increasing number of green streets (green infrastructures within the rights-of-way with environmental purposes), because of green stormwater management federal policies. This paper aims to understand the green street design procedure, based on empirical evidence. Three cities were studied (Portland, Seattle, and Philadelphia) by means of documentary information, visual inspections, and interviews. It is of special interest to unveil how traditional street design has been modified to adopt these new green elements within rights-of-way (ROW). Results show a longer and more complex street design process for green streets, where many more disciplines intervene. These results are discussed in the light of recent movements and trends in street design.

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Role of local climate zone and space syntax on land surface temperature (case study: Tehran)

Nasehi

Yavari²,

Salehi³

et al. 2022

Urban Climate

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Mapping green infrastructure and socioeconomic indicators as a public management tool: the case of the municipalities of Andalusia (Spain)

Cited by 8 publications

References 41 publications

Planning a Green Infrastructure Network from Theory to Practice: The Case Study of Setúbal, Portugal

Planning a Green Infrastructure Network from Theory to Practice: The Case Study of Setúbal, Portugal

Understanding Green Street Design: Evidence from Three Cases in the U.S.

Role of local climate zone and space syntax on land surface temperature (case study: Tehran)

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