Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems

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Standard

Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems. / Raymond, Christopher M.; Lechner, Alex M.; Havu, Minttu; Jalkanen, Joel; Lampinen, Jussi; Antúnez, Oriol García; Olafsson, Anton Stahl; Gulsrud, Natalie; Kinnunen, Antti; Backman, Leif; Kulmala, Liisa; Järvi, Leena.

I: npj Urban Sustainability, Bind 3, 27, 2023.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Raymond, CM, Lechner, AM, Havu, M, Jalkanen, J, Lampinen, J, Antúnez, OG, Olafsson, AS, Gulsrud, N, Kinnunen, A, Backman, L, Kulmala, L & Järvi, L 2023, 'Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems', npj Urban Sustainability, bind 3, 27. https://doi.org/10.1038/s42949-023-00103-2

APA

Raymond, C. M., Lechner, A. M., Havu, M., Jalkanen, J., Lampinen, J., Antúnez, O. G., Olafsson, A. S., Gulsrud, N., Kinnunen, A., Backman, L., Kulmala, L., & Järvi, L. (2023). Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems. npj Urban Sustainability, 3, [27]. https://doi.org/10.1038/s42949-023-00103-2

Vancouver

Raymond CM, Lechner AM, Havu M, Jalkanen J, Lampinen J, Antúnez OG o.a. Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems. npj Urban Sustainability. 2023;3. 27. https://doi.org/10.1038/s42949-023-00103-2

Author

Raymond, Christopher M. ; Lechner, Alex M. ; Havu, Minttu ; Jalkanen, Joel ; Lampinen, Jussi ; Antúnez, Oriol García ; Olafsson, Anton Stahl ; Gulsrud, Natalie ; Kinnunen, Antti ; Backman, Leif ; Kulmala, Liisa ; Järvi, Leena. / Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems. I: npj Urban Sustainability. 2023 ; Bind 3.

Bibtex

@article{7fcea9e3d35b41b8915458d7964779e5,
title = "Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems",
abstract = "Managing nature-based solutions (NBS) in urban areas for carbon mitigation and biodiversity outcomes is a global policy challenge, yet little is known about how to both assess and weave diverse knowledge systems and values into carbon-biodiversity trade-off assessments. This paper examines the spatial relationships between biophysical and social values for carbon sequestration potential (measured as carbon dioxide, CO2, flux) and biodiversity in Helsinki, Finland, using integrated valuation. The approach combines methods from carbon sequestration modelling, expert scoring approaches to biodiversity assessment and public participation geographic information systems (PPGIS). Results indicate strong spatial associations between biophysical assessment of CO2 flux and biodiversity priorities, and weaker associations between biophysical and social values. Integration of social and biophysical values leads to multiple pathways for protection of NBS to achieve carbon mitigation and biodiversity outcomes, as well as options for the spatial targeting of education and capacity building programs to areas of local concern.",
keywords = "Faculty of Science, carbon, UGI, NBS, biodiversity",
author = "Raymond, {Christopher M.} and Lechner, {Alex M.} and Minttu Havu and Joel Jalkanen and Jussi Lampinen and Ant{\'u}nez, {Oriol Garc{\'i}a} and Olafsson, {Anton Stahl} and Natalie Gulsrud and Antti Kinnunen and Leif Backman and Liisa Kulmala and Leena J{\"a}rvi",
year = "2023",
doi = "10.1038/s42949-023-00103-2",
language = "English",
volume = "3",
journal = "npj Urban Sustainability",
issn = "2661-8001",

}

RIS

TY - JOUR

T1 - Identifying where nature-based solutions can offer win-wins for carbon mitigation and biodiversity across knowledge systems

AU - Raymond, Christopher M.

AU - Lechner, Alex M.

AU - Havu, Minttu

AU - Jalkanen, Joel

AU - Lampinen, Jussi

AU - Antúnez, Oriol García

AU - Olafsson, Anton Stahl

AU - Gulsrud, Natalie

AU - Kinnunen, Antti

AU - Backman, Leif

AU - Kulmala, Liisa

AU - Järvi, Leena

PY - 2023

Y1 - 2023

N2 - Managing nature-based solutions (NBS) in urban areas for carbon mitigation and biodiversity outcomes is a global policy challenge, yet little is known about how to both assess and weave diverse knowledge systems and values into carbon-biodiversity trade-off assessments. This paper examines the spatial relationships between biophysical and social values for carbon sequestration potential (measured as carbon dioxide, CO2, flux) and biodiversity in Helsinki, Finland, using integrated valuation. The approach combines methods from carbon sequestration modelling, expert scoring approaches to biodiversity assessment and public participation geographic information systems (PPGIS). Results indicate strong spatial associations between biophysical assessment of CO2 flux and biodiversity priorities, and weaker associations between biophysical and social values. Integration of social and biophysical values leads to multiple pathways for protection of NBS to achieve carbon mitigation and biodiversity outcomes, as well as options for the spatial targeting of education and capacity building programs to areas of local concern.

AB - Managing nature-based solutions (NBS) in urban areas for carbon mitigation and biodiversity outcomes is a global policy challenge, yet little is known about how to both assess and weave diverse knowledge systems and values into carbon-biodiversity trade-off assessments. This paper examines the spatial relationships between biophysical and social values for carbon sequestration potential (measured as carbon dioxide, CO2, flux) and biodiversity in Helsinki, Finland, using integrated valuation. The approach combines methods from carbon sequestration modelling, expert scoring approaches to biodiversity assessment and public participation geographic information systems (PPGIS). Results indicate strong spatial associations between biophysical assessment of CO2 flux and biodiversity priorities, and weaker associations between biophysical and social values. Integration of social and biophysical values leads to multiple pathways for protection of NBS to achieve carbon mitigation and biodiversity outcomes, as well as options for the spatial targeting of education and capacity building programs to areas of local concern.

KW - Faculty of Science

KW - carbon

KW - UGI

KW - NBS

KW - biodiversity

U2 - 10.1038/s42949-023-00103-2

DO - 10.1038/s42949-023-00103-2

M3 - Journal article

VL - 3

JO - npj Urban Sustainability

JF - npj Urban Sustainability

SN - 2661-8001

M1 - 27

ER -

ID: 344327378