Are soil sealing indicators sufficient to guide urban planning? Insights from an ecosystem services assessment in the Paris metropolitan area

Rapid urbanization drives land cover change, affecting urban ecosystems and inducing serious environmental issues. The study region of Changchun, China was divided into three urbanization categories according to different urbanization levels and the characteristics of urban sprawl and changes and relationships between typical ecosystem services (ESs) under rapid urbanization were analysed. The results showed that Changchun has undergone considerable urban expansion since 2000, which has significantly impacted all ESs in terms of spatial and temporal heterogeneity. Habitat suitability and crop yield have relatively stronger service capacity in the study area. Since the expansion of large-scale infrastructures, the mean ES values of developed urban areas are the lowest among the three zones, except for water retention and sandstorm prevention in 2015, when the balance between all services decreased. Over the past 16 years, habitat suitability in developing urban areas has decreased to a large extent due to urban sprawl. Because of the improvement in agricultural science and technology, crop yield in three regions increased, while the area of cropland reduced from 1720 km2 to 1560 km2 (9.3%). Synergies between habitat suitability and carbon storage and habitat suitability and soil retention were detected in three areas. A trade-off between habitat suitability and water retention was detected in three areas. The interactions between crop yield and carbon storage, habitat suitability, and soil retention were more complex in this study region. In addition to water retention, urbanization index has a negative correlation with ESs. According to the results, some suggestions to alleviate ES loss during the process of rapid urbanization were proposed, which may guide scientific urban planning for sustainable urban development.

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The effects of sealing on urban soil carbon and nutrients

SOIL ◽

10.5194/soil-7-661-2021 ◽

2021 ◽

Vol 7 (2) ◽

pp. 661-675

Author(s):

Roisin O'Riordan ◽

Jess Davies ◽

Carly Stevens ◽

John N. Quinton

Keyword(s):

Ecosystem Services ◽

Soil Properties ◽

Soil Carbon ◽

Urban Soil ◽

Green Space ◽

Great Influence ◽

Nitrate Content ◽

Soil Functions ◽

Soil Sealing ◽

Nutrient Stocks

Abstract. Urban soils are of increasing interest for their potential to provide ecosystem services such as carbon storage and nutrient cycling. Despite this, there is limited knowledge on how soil sealing with impervious surfaces, a common disturbance in urban environments, affects these important ecosystem services. In this paper, we investigate the effect of soil sealing on soil properties, soil carbon and soil nutrient stocks. We undertook a comparative survey of sealed and unsealed green space soils across the UK city of Manchester. Our results reveal that the context of urban soil and the anthropogenic artefacts added to soil have a great influence on soil properties and functions. In general, sealing reduced soil carbon and nutrient stocks compared to green space soil; however, where there were anthropogenic additions of organic and mineral artefacts, this led to increases in soil carbon and nitrate content. Anthropogenic additions led to carbon stocks equivalent to or larger than those in green spaces; this was likely a result of charcoal additions, leading to carbon stores with long residence times. This suggests that in areas with an industrial past, anthropogenic additions can lead to a legacy carbon store in urban soil and make important contributions to urban soil carbon budgets. These findings shed light on the heterogeneity of urban sealed soil and the influence of anthropogenic artefacts on soil functions. Our research highlights the need to gain a further understanding of urban soil processes, in both sealed and unsealed soils, and of the influence and legacy of anthropogenic additions for soil functions and important ecosystem services.

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Corrigendum to “Development and application of GIS-based analysis/synthesis modeling techniques for urban planning of Istanbul Metropolitan Area” [Adv. Softw. Eng. 40 (2) (2009) 128–140]

Advances in Engineering Software ◽

10.1016/j.advengsoft.2009.10.013 ◽

2010 ◽

Vol 41 (2) ◽

pp. 406

Author(s):

Ibrahim Baz ◽

Abdurrahman Geymen ◽

Semih Nogay Er

Keyword(s):

Urban Planning ◽

Metropolitan Area ◽

Modeling Techniques ◽

Application Of Gis

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Why is the inclusion of the ecosystem services concept in urban planning so limited? A knowledge implementation and impact analysis of the Italian urban plans

Socio-Ecological Practice Research ◽

10.1007/s42532-019-00016-4 ◽

2019 ◽

Vol 1 (2) ◽

pp. 83-91 ◽

Cited By ~ 8

Author(s):

Daniele La Rosa

Keyword(s):

Ecosystem Services ◽

Urban Planning ◽

Impact Analysis ◽

Knowledge Implementation

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Edge Open Spaces in Madrid and Its Metropolitan Area (Spain), Sustainable Urban Planning and Environmental Values

Carbon Footprint and the Industrial Life Cycle - Green Energy and Technology ◽

10.1007/978-3-319-54984-2_4 ◽

2017 ◽

pp. 53-84 ◽

Cited By ~ 1

Author(s):

Fernando Allende ◽

Elia Canosa ◽

Nieves López ◽

Gillian Gómez

Keyword(s):

Urban Planning ◽

Metropolitan Area ◽

Environmental Values ◽

Open Spaces

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Temporal Changes in Multiple Ecosystem Services and Their Bundles Responding to Urbanization and Ecological Restoration in the Beijing–Tianjin–Hebei Metropolitan Area

Sustainability ◽

10.3390/su11072079 ◽

2019 ◽

Vol 11 (7) ◽

pp. 2079 ◽

Cited By ~ 3

Author(s):

Yanying Yang ◽

Hua Zheng ◽

Weihua Xu ◽

Lu Zhang ◽

Zhiyun Ouyang

Keyword(s):

Ecosystem Services ◽

Ecological Restoration ◽

Metropolitan Area ◽

Rural Areas ◽

Human Population ◽

Water Retention ◽

Global Trend ◽

Land Use Policies ◽

Vegetables And Fruits ◽

Soil And Water

By 2050, 70% of the human population is likely to be living in cities, making urbanization an increasing global trend. Detecting changes in ecosystem services (ES) and their bundles in response to urbanization is critical for evaluating land-use policies. We examined changes in the provision of grains, vegetables, fruits, carbon sequestration, soil retention, sandstorm prevention, and water retention from 2000 to 2010 in the Beijing–Tianjin–Hebei metropolitan area, China; then, using a k-means cluster analysis, we classified 202 counties of this area into groups (bundles) based on their similar sets of ES. We found that (1) urban area, forestland, and grassland increased by 22%, 3.6%, and 1.7%, respectively, while cropland decreased by 4.6%; (2) the provision of grains, vegetables, and fruits increased by 24–90%, despite an overall loss in cropland; carbon storage and sand retention increased by 40% and 7%, respectively, while soil and water retention increased slightly by approx. 1% each; (3) 72 counties changed their ES bundles; and the “agriculture bundle” dominated the landscape in 2000 while it decreased by 50% in 2010 and was mainly transformed to “sub-developed urban bundle”, indicating loss of cropland during that decade. The transformation of ES bundles can be used to understand the effects of urbanization. The study indicated that improved technologies and ecological restoration in rural areas can help sustain multiple ES in our rapidly urbanizing world.

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