Assessing the impact of land-cover changes on ecosystem services: A first step toward integrative planning in Bordeaux, France

Cabral, Pedro; Feger, C.; Levrel, Harold; Chambolle, Mélodie; Basque, Damien

doi:10.1016/j.ecoser.2016.08.005

Cited by 127 publications

(53 citation statements)

References 40 publications

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“…Therefore, and considering the data availability, the selected ES indicators for modeling included water yield, water quality, sediment retention, carbon storage, and biodiversity. These indicators have been used successfully in other studies (Bhagabati et al 2012;Bai et al 2013;Leh et al 2013;Cabral et al 2016). Table 2 shows the ES and respective ES indicators (units) used in the current study.…”

Section: Methodsmentioning

confidence: 86%

“…InVEST is a free and open model, has low data requirements, and has demonstrated its usefulness in different study areas (Nelson et al 2009;Goldstein et al 2012;Delphin et al 2013;Geneletti 2013;Leh et al 2013;Cabral et al 2016;Jiang et al 2016;Posner et al 2016). Thus, the main goal of this study is to assess the impact of LCC on multiple ES and biodiversity of this country.…”

Section: Introductionmentioning

confidence: 99%

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Ecosystem services and biodiversity trends in Mozambique as a consequence of land cover change

Niquisse

Cabral

Rodrigues

et al. 2017

International Journal of Biodiversity Science, Ecosystem Servic

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The incorporation of ecosystem services (ES) information in planning decisions is an important factor in the sustainable use of natural resources. However, studies assessing the levels and changes of these services at national level are rare. In this paper, we estimate past and future changes in multiple ES and biodiversity, as a consequence of land cover change (LCC) in Mozambique. Water yield, water quality, erosion regulation, climate regulation, and biodiversity were modeled using a spatially explicit approach. Changes in ES and biodiversity were mapped at province level between 2005 and 2009. Through the use of a land change model, land cover was projected for 2025, and the resulting impacts on ES and biodiversity were estimated. We found a moderate increase in climate regulating service between 2005 and 2009. However, water quality (nutrient retention) and biodiversity decreased. LCC for 2025 is expected to have a similar impact on these ES. This study contributes with a methodology that can be useful for monitoring ES and assist decision policies affecting ES provision and trade-offs. ARTICLE HISTORY

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Section: Methodsmentioning

confidence: 86%

Section: Introductionmentioning

confidence: 99%

Ecosystem services and biodiversity trends in Mozambique as a consequence of land cover change

Niquisse

Cabral

Rodrigues

et al. 2017

International Journal of Biodiversity Science, Ecosystem Servic

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“…InVEST consists of a suite of spatially-explicit models that use LULC maps, biophysical and economic data to quantify and map various ES provided by landscape in biophysical or economic terms (Cabral et al, 2016;Levrel et al, 2017;Nelson et al, 2009;Tallis and Polasky, 2009) For static spatial correlations, we calculated the Pearson correlation coefficients between pairs of ES (sub-watershed level) at the four dates. For the temporal correlations, we calculated the variations of each ES between two consecutive dates (1986-1996, 1996-2001, 2001-2008) and between the start and end of the whole period studied We graphically represented the production possibility set of each pair of ES by plotting ES values in all landscape configurations (four observed and 32 simulated) against one another.…”

Section: Methodsmentioning

confidence: 99%

Relationships Between Ecosystem Services: Comparing Methods for Assessing Tradeoffs and Synergies

Vallet

Locatelli

Levrel

et al. 2018

Ecological Economics

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153

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“…The expansion of cities causes urban sprawl, characterized by the extension of settlements with the decrease of agriculture, water bodies, and forest land. Studies on urban sprawl are necessary as they support different fields of science such as transport planning, landscape architecture studies, urban planning, land-use planning, economics, and ecosystem services [4].…”

Section: Introductionmentioning

confidence: 99%

“…The uncontrolled urban sprawl in Chennai city is having negative consequences regarding air pollution, housing, overcrowding, encroachment, slums, disposal of waste, increasing settlements, water availability, water pollution, and sewage [11]. The uncontrolled urban sprawl also leads to various environmental impacts, such as higher energy utilization, disturbance of species diversity, flood risk, and ecosystem fragmentation [4]. Predicting urban growth and associated impacts on ecosystem services will contribute to better urban planning with the design of eco-friendly cities that avoid the major negative consequences of urban sprawl [1,12].…”

Section: Introductionmentioning

confidence: 99%

Urban Sprawl Detection Using Remotely Sensed Data: A Case of Chennai, Tamilnadu

Padmanaban¹,

Cabral²,

Ak³

et al. 2017

Preprint

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Urban sprawl propelled by rapid population growth leads to the shrinkage of productive agricultural lands and pristine forests in the suburban areas and, in turn, substantially alters ecosystem services. Hence, the quantification of urban sprawl is crucial for effective urban planning, and environmental and ecosystem management. Like many megacities in fast growing developing countries, Chennai, the capital of Tamilnadu and one of the business hubs in India, has experienced extensive urban sprawl triggered by the doubling of total population over the past three decades. We employed the Random Forest (RF) classification on Landsat imageries from 1991, 2003, and 2016, and computed spatial metrics to quantify the extent of urban sprawl within a 10km suburban buffer of Chennai. The rate of urban sprawl was quantified using Renyi's entropy, and the urban extent was predicted for 2027 using land-use and land-cover change Peer-reviewed version available at Entropy 2017, 19, , 163; doi:10.3390/e19040163 2 addressing the social-ecological consequences of urban sprawl and the protection of ecosystem services.

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Assessing the impact of land-cover changes on ecosystem services: A first step toward integrative planning in Bordeaux, France

Cited by 127 publications

References 40 publications

Ecosystem services and biodiversity trends in Mozambique as a consequence of land cover change

Ecosystem services and biodiversity trends in Mozambique as a consequence of land cover change

Relationships Between Ecosystem Services: Comparing Methods for Assessing Tradeoffs and Synergies

Urban Sprawl Detection Using Remotely Sensed Data: A Case of Chennai, Tamilnadu

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