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A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions

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A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions. / Jones, Laurence M.; Anderson, Sally Dean; Læssøe, Jeppe et al.
In: Nature-Based Solutions, Vol. 2, 100041 , 11.2022.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

Harvard

Jones, LM, Anderson, SD, Læssøe, J, Banzhaf, E, Jensen, A, Bird, DN, Miller, J, Hutchins, M, Yang, J, Garrett, J, Taylor, T, Wheeler, BW, Lovell, R, Fletcher, D, Qu, Y, Vieno, M & Zandersen, M 2022, 'A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions', Nature-Based Solutions, vol. 2, 100041 . <https://doi.org/10.1016/j.nbsj.2022.100041>

APA

Jones, L. M., Anderson, S. D., Læssøe, J., Banzhaf, E., Jensen, A., Bird, D. N., Miller, J., Hutchins, M., Yang, J., Garrett, J., Taylor, T., Wheeler, B. W., Lovell, R., Fletcher, D., Qu, Y., Vieno, M., & Zandersen, M. (2022). A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions. Nature-Based Solutions, 2, [100041 ]. https://doi.org/10.1016/j.nbsj.2022.100041

CBE

Jones LM, Anderson SD, Læssøe J, Banzhaf E, Jensen A, Bird DN, Miller J, Hutchins M, Yang J, Garrett J, et al. 2022. A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions. Nature-Based Solutions. 2:Article 100041 .

MLA

Jones, Laurence M. et al. "A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions". Nature-Based Solutions. 2022. 2.

Vancouver

Jones LM, Anderson SD, Læssøe J, Banzhaf E, Jensen A, Bird DN et al. A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions. Nature-Based Solutions. 2022 Nov;2:100041 . Epub 2022 Nov 15.

Author

Jones, Laurence M. ; Anderson, Sally Dean ; Læssøe, Jeppe et al. / A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions. In: Nature-Based Solutions. 2022 ; Vol. 2.

Bibtex

@article{cdf192d6c4fb45b2af402c5b385cc915,
title = "A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions",
abstract = "Urban Green Infrastructure (GI) provides multiple benefits to city inhabitants and can be an important component in nature-based solutions (NBS), but the ecosystem services that underpin those benefits are inconsistently quantified in the literature. There remain substantial knowledge gaps about the level of service supported by less studied GI types, e.g. cemeteries, or less-studied ecosystem services, e.g. noise mitigation. Decision-makers and planners in cities often face conflicting or incomplete information on the effectiveness of GI, particularly on their ability to provide a suite of co-benefits. Here, we describe a feature-based typology of GI which combines elements of land cover, land use and both ecological and social function. It is consistent with user requirements on mapping, and with the needs of models which can conduct more detailed ecosystem service assessments which can guide NBS design. We provide an evidence synthesis based on published literature, which scores the ability of each GI type to deliver a suite of ecosystem services. In the multivariate analysis of the typology scores, the main axis of variation differentiates between constructed (or hybrid) GI types designed primarily for water flow management (delivering relatively few services) and more natural green GI with trees, or blue GI such as lakes and the sea, which deliver a more multi-functional set of regulating services. The most multi-functional GI on this axis also score highest for biodiversity. The second element of variation separates those GI which support very few cultural services and those which score highly in enabling physical wellbeing and social interaction and, to a lesser extent, restoring capacities. Together the typology and multi-functionality matrix provide a much needed assessment for less studied GI types, and allow planners and decision-makers to make a-priori assessments of the relative ability of different GI as part of NBS to address urban challenges.",
keywords = "nature-based solutions, green infrastructure, mapping modelling, well being, social interaction",
author = "Jones, {Laurence M.} and Anderson, {Sally Dean} and Jeppe L{\ae}ss{\o}e and Ellen Banzhaf and Anne Jensen and Bird, {David Neil} and James Miller and Michael Hutchins and Jun Yang and Joanne Garrett and Tim Taylor and Wheeler, {Benedict W} and Rebecca Lovell and David Fletcher and Yueming Qu and Massimo Vieno and Marianne Zandersen",
year = "2022",
month = nov,
language = "English",
volume = "2",
journal = "Nature-Based Solutions",
issn = "2772-4115",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - A typology for urban Green Infrastructure, to guide multifunctional planning of nature-based solutions

AU - Jones, Laurence M.

AU - Anderson, Sally Dean

AU - Læssøe, Jeppe

AU - Banzhaf, Ellen

AU - Jensen, Anne

AU - Bird, David Neil

AU - Miller, James

AU - Hutchins, Michael

AU - Yang, Jun

AU - Garrett, Joanne

AU - Taylor, Tim

AU - Wheeler, Benedict W

AU - Lovell, Rebecca

AU - Fletcher, David

AU - Qu, Yueming

AU - Vieno, Massimo

AU - Zandersen, Marianne

PY - 2022/11

Y1 - 2022/11

N2 - Urban Green Infrastructure (GI) provides multiple benefits to city inhabitants and can be an important component in nature-based solutions (NBS), but the ecosystem services that underpin those benefits are inconsistently quantified in the literature. There remain substantial knowledge gaps about the level of service supported by less studied GI types, e.g. cemeteries, or less-studied ecosystem services, e.g. noise mitigation. Decision-makers and planners in cities often face conflicting or incomplete information on the effectiveness of GI, particularly on their ability to provide a suite of co-benefits. Here, we describe a feature-based typology of GI which combines elements of land cover, land use and both ecological and social function. It is consistent with user requirements on mapping, and with the needs of models which can conduct more detailed ecosystem service assessments which can guide NBS design. We provide an evidence synthesis based on published literature, which scores the ability of each GI type to deliver a suite of ecosystem services. In the multivariate analysis of the typology scores, the main axis of variation differentiates between constructed (or hybrid) GI types designed primarily for water flow management (delivering relatively few services) and more natural green GI with trees, or blue GI such as lakes and the sea, which deliver a more multi-functional set of regulating services. The most multi-functional GI on this axis also score highest for biodiversity. The second element of variation separates those GI which support very few cultural services and those which score highly in enabling physical wellbeing and social interaction and, to a lesser extent, restoring capacities. Together the typology and multi-functionality matrix provide a much needed assessment for less studied GI types, and allow planners and decision-makers to make a-priori assessments of the relative ability of different GI as part of NBS to address urban challenges.

AB - Urban Green Infrastructure (GI) provides multiple benefits to city inhabitants and can be an important component in nature-based solutions (NBS), but the ecosystem services that underpin those benefits are inconsistently quantified in the literature. There remain substantial knowledge gaps about the level of service supported by less studied GI types, e.g. cemeteries, or less-studied ecosystem services, e.g. noise mitigation. Decision-makers and planners in cities often face conflicting or incomplete information on the effectiveness of GI, particularly on their ability to provide a suite of co-benefits. Here, we describe a feature-based typology of GI which combines elements of land cover, land use and both ecological and social function. It is consistent with user requirements on mapping, and with the needs of models which can conduct more detailed ecosystem service assessments which can guide NBS design. We provide an evidence synthesis based on published literature, which scores the ability of each GI type to deliver a suite of ecosystem services. In the multivariate analysis of the typology scores, the main axis of variation differentiates between constructed (or hybrid) GI types designed primarily for water flow management (delivering relatively few services) and more natural green GI with trees, or blue GI such as lakes and the sea, which deliver a more multi-functional set of regulating services. The most multi-functional GI on this axis also score highest for biodiversity. The second element of variation separates those GI which support very few cultural services and those which score highly in enabling physical wellbeing and social interaction and, to a lesser extent, restoring capacities. Together the typology and multi-functionality matrix provide a much needed assessment for less studied GI types, and allow planners and decision-makers to make a-priori assessments of the relative ability of different GI as part of NBS to address urban challenges.

KW - nature-based solutions

KW - green infrastructure

KW - mapping modelling

KW - well being

KW - social interaction

M3 - Journal article

VL - 2

JO - Nature-Based Solutions

JF - Nature-Based Solutions

SN - 2772-4115

M1 - 100041

ER -