Neighbourhood-scale urban forest ecosystem classification

Urban forests are now recognized as essential components of sustainable cities, but there remains uncertainty concerning how to stratify and classify urban landscapes into units of ecological significance at spatial scales appropriate for management. Ecosystem classification is an approach that enta...

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Bibliographic Details
Published in:Journal of environmental management 2015-11, Vol.163, p.134-145
Main Authors: Steenberg, James W.N., Millward, Andrew A., Duinker, Peter N., Nowak, David J., Robinson, Pamela J.
Format: Article
Language:English
Subjects:
Canada
Cities
Cluster Analysis
Decision Support Techniques
Ecology - classification
Ecology - methods
Ecosystem
Ecosystem classification
Ecosystems
Forests
Humans
Land use
Management
Neighborhoods
Neighbourhood
Neighbourhoods
Population Density
Residence Characteristics
Trees
Urban forest
Urban forestry
Wealth
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Summary:Urban forests are now recognized as essential components of sustainable cities, but there remains uncertainty concerning how to stratify and classify urban landscapes into units of ecological significance at spatial scales appropriate for management. Ecosystem classification is an approach that entails quantifying the social and ecological processes that shape ecosystem conditions into logical and relatively homogeneous management units, making the potential for ecosystem-based decision support available to urban planners. The purpose of this study is to develop and propose a framework for urban forest ecosystem classification (UFEC). The multifactor framework integrates 12 ecosystem components that characterize the biophysical landscape, built environment, and human population. This framework is then applied at the neighbourhood scale in Toronto, Canada, using hierarchical cluster analysis. The analysis used 27 spatially-explicit variables to quantify the ecosystem components in Toronto. Twelve ecosystem classes were identified in this UFEC application. Across the ecosystem classes, tree canopy cover was positively related to economic wealth, especially income. However, education levels and homeownership were occasionally inconsistent with the expected positive relationship with canopy cover. Open green space and stocking had variable relationships with economic wealth and were more closely related to population density, building intensity, and land use. The UFEC can provide ecosystem-based information for greening initiatives, tree planting, and the maintenance of the existing canopy. Moreover, its use has the potential to inform the prioritization of limited municipal resources according to ecological conditions and to concerns of social equity in the access to nature and distribution of ecosystem service supply. •A neighbourhood-scale urban forest ecosystem classification (UFEC) was developed.•Tree canopy cover was closely related to economic wealth, especially income.•Urban density and land use were also influential on ecosystem structure.•There are likely scale dependencies of some established social-ecological processes.•UFEC provided relevant information for strategic urban forest planning initiatives.
ISSN:0301-4797
1095-8630
DOI:10.1016/j.jenvman.2015.08.008