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

IF 9.1 Q1 ENVIRONMENTAL STUDIES npj urban sustainability Pub Date : 2023-04-18 DOI:10.1038/s42949-023-00103-2
Christopher M. Raymond, Alex M. Lechner, Minttu Havu, Joel Jalkanen, Jussi Lampinen, Oriol García Antúnez, Anton Stahl Olafsson, Natalie Gulsrud, Antti Kinnunen, Leif Backman, Liisa Kulmala, Leena Järvi
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引用次数: 2

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.

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确定基于自然的解决方案在哪些方面可以为跨知识系统的碳减排和生物多样性提供双赢
管理城市地区基于自然的解决方案(NBS)以实现碳减排和生物多样性成果是一项全球性的政策挑战,但对于如何评估并将不同的知识体系和价值观融入碳-生物多样性权衡评估中却知之甚少。本文采用综合估值法研究了芬兰赫尔辛基碳固存潜力(以二氧化碳通量衡量)和生物多样性的生物物理价值与社会价值之间的空间关系。该方法结合了碳封存建模、生物多样性评估专家评分法和公众参与地理信息系统(PPGIS)等方法。结果表明,二氧化碳通量的生物物理评估与生物多样性优先事项之间存在较强的空间关联,而生物物理价值与社会价值之间的关联较弱。将社会价值和生物物理价值结合起来,可为保护国家生物多样性战略提供多种途径,以实现碳减排和生物多样性成果,并为教育和能力建设计划在空间上针对当地关注的领域提供选择。
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