Relationship between urban green spaces and other features of urban morphology with traffic noise distribution

Margaritis, Efstathios; Kang, Jian

doi:10.1016/j.ufug.2015.12.009

Cited by 44 publications

(25 citation statements)

References 34 publications

(38 reference statements)

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“…Moudon (2009) agrees with this statement and highlights that green spaces are useful in noise attenuation due to three factors: their physical characteristics, the restriction to a high concentration of population and car use restriction. In addition, Margaritis and Kang (2016) believe that the dispersion of green areas combined with the properties and attributes of roads and buildings are factors that considerably reduce noise levels.…”

Section: Discussionmentioning

confidence: 99%

“…Despite all the efforts and relevant results of these studies, there is still a lack of tools to support the extent of the effect of green areas in controlling noise pollution. Margaritis and Kang (2016) also relate green areas and some characteristics of urban morphology to traffic noise. Considering eight cities, this analysis included a large number of land use parameters, emphasising the need to combine green areas with areas where there are buildings, roads and demographic attributes to achieve urban noise reduction.…”

Section: Introductionmentioning

confidence: 99%

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Urban green spaces and the influence on vehicular traffic noise control

Lopez

Souza

2018

Ambient. constr.

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In this paper, we explore a statistical relationship between green areas and traffic-related vehicle noise. A medium-sized Brazilian city was selected as the sampling area. This area was divided into 25 subareas and for each subarea a group of descriptors was developed. The parameters considered were the areas occupied by green spaces and the noise pollution index generated by vehicular traffic during day and night periods. The green areas were quantified by digital processing of satellite images. The vehicular traffic noise was measured directly at the site and analysed by the noise pollution index (Lnp), the equivalent sound level (LAeq) and the day/night sound level (Ldn). In order to establish the statistical relationship between noise descriptors and green areas, Pearson's linear correlation coefficient (r) was used. Two analysis types were developed: a generalised one, including the 25 subareas; and a specific one, classifying the subareas into clusters. The first analysis indicated a trend to a medium negative correlation between green areas and noise pollution day index (Lnpd), noise pollution night index (Lnpn) and Ldn (r= -0.577, -0.484, -0.373). In the second analysis, the subarea cluster 3 is considered, which includes areas with clinics and educational institutions. This correlation was classified as high negative (r= -0.729, -0.721, -0.541). The results show indexes with high negative correlation, statistically meaning that there is an inverse proportional relationship between green areas and noise pollution.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Urban green spaces and the influence on vehicular traffic noise control

Lopez

Souza

2018

Ambient. constr.

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“…Others include also the proximity to green areas (Herzele and Wiedemann, 2003;Hillsdon et al, 2006;Kabisch et al, 2016;Morar et al, 2014;Natural England, 2010;Ståhle, 2010) or more complex indices referring to the balance between green and built up areas (De la Barrera et al, 2016). Furthermore, there are shape-oriented indices, which can also measure the distribution of green spaces (Margaritis and Kang, 2016;McGarical and Marks, 1994;Verani et al, 2015).…”

Section: Introductionmentioning

confidence: 99%

Relationship between green space-related morphology and noise pollution

Margaritis

Kang

2017

Ecological Indicators

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114

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Green spaces have been proved to have a positive effect on traffic noise pollution in the local scale; however their effects have not been explored on the urban level. This paper investigates the effects of green space-related parameters from a land cover viewpoint on traffic noise pollution in order to understand to what extent greener cities can also be quieter. A triple level analysis was conducted in the agglomeration, urban and kernel level including various case study cities across Europe. The green space parameters were calculated based on land cover data available in a European scale, while traffic noise data were extracted from online noise maps and configured in noise indices. In the first level 25 agglomerations were investigated, six of which were further analyzed in the urban and kernel levels. It was found that the effect of green spaces on traffic noise pollution varies according to the scale of analysis. In the agglomeration level, there was no significant difference in the cluster of the higher green space index and the percentage of people exposed in the lowest (55-59 dB(A)) or the highest noise band of more than 70 dB(A). In the urban level it was found that lower noise levels can possibly be achieved in cities with a higher extent of porosity and green space coverage. Finally, in the kernel level a Geographically Weighted Regression (GWR) analysis was conducted for the identification of correlations between noise and green. Strong correlations were identified between 60% and 79%, while a further cluster analysis combined with land cover data revealed that lower noise levels were detected in the cluster with higher green space coverage. At last, all cities were ranked according to the calculated noise index.

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“…Most of the studies have put emphasis on meso-scale urban morphology such as road and building coverage ratio, building plan area fraction, building frontal area index, and have related these parameters to the average, maximum and minimum noise exposure within the studied urban grid [26][27][28][29][30]. Other studies focus on the noise resisting effects of urban layout and formation such as urban density, green space ratio, road length and intersections, at larger urban-scale [31,32]. For this reason, the results of previous studies cannot be directly applied in predicting wind turbine noise with a focus on localised noise exposure at receptors at the building-scale, i.e.…”

Section: Introductionmentioning

confidence: 99%

Effects of built environment morphology on wind turbine noise exposure at building façades

Qü

Kang

2017

Renewable Energy

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With wind farms installed in urban and suburban areas, the noise exposure of buildings is affected both by distance attenuation and the morphology of the built environment. With the aim of exploring the noise-resisting effects of built environment morphology, three kinds of typical suburban areas in the UK were sampled and noise maps were generated based upon an idealised modern wind turbine placed at various setback distances from each site. Relationships between morphological indices and building façade exposures were examined through regression analyses. Noise reduction levels of five morphological indices were given in terms of resisting wind turbine noise with different source-receiver (S-R) distances, and at different frequencies. The results show that built environment morphology has considerable effects on resisting the noise exposure of buildings and can create a quiet façade with up to 13dBA difference to the most exposure façade. Among the five indices, building orientation is found to be most effective in resisting the noise exposure of building façades, followed by the length and shape of the building. The noise resistance effects vary by different S-R distances and differ by frequency. Four morphological indices are found to be effective in resisting noise at low frequencies, typically at 50Hz.

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Relationship between urban green spaces and other features of urban morphology with traffic noise distribution

Cited by 44 publications

References 34 publications

Urban green spaces and the influence on vehicular traffic noise control

Urban green spaces and the influence on vehicular traffic noise control

Relationship between green space-related morphology and noise pollution

Effects of built environment morphology on wind turbine noise exposure at building façades

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