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CITATION.cff
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# This CITATION.cff file was generated with cffinit.
# Visit https://bit.ly/cffinit to generate yours today!
cff-version: 1.2.0
title: Nature-Based Solutions Dashboard
message: >-
If you use this software, please cite it using the
metadata from this file.
type: software
authors:
- given-names: Temkin
family-names: Diego
email: [email protected]
affiliation: Massachusetts Institute of Technology
- given-names: Cong
family-names: Cong
email: [email protected]
affiliation: Massachusetts Institute of Technology
repository-code: 'https://github.com/mit-dusp-nbs/dusp-nbs'
url: 'https://mit-dusp-nbs.github.io/dusp-nbs/'
license: MIT
preferred-citation:
type: article
authors:
- family-names: Pan
given-names: Haozhi
- family-names: Page
given-names: Jessica
- family-names: Shi
given-names: Rui
- family-names: Cong
given-names: Cong
- family-names: Cai
given-names: Zipan
- family-names: Barthel
given-names: Stephan
- family-names: Thollander
given-names: Patrik
- family-names: Colding
given-names: Johan
- family-names: Kalantari
given-names: Zahra
year: 2023
date-published: '2023-07-20'
title: >-
Contribution of prioritized urban nature-based solutions allocation to
carbon neutrality
journal: Nature Climate Change
abstract: >-
Nature-based solutions (NBS) are essential for carbon-neutral cities, yet
how to effectively allocate them remains a question. Carbon neutrality
requires city-led climate action plans that incorporate both indirect and
direct contributions of NBS. Here we assessed the carbon emissions
mitigation potential of NBS in European cities, focusing particularly on
commonly overlooked indirect pathways, for example, human behavioural
interventions and resource savings. Assuming maximum theoretical
implementation, NBS in the residential, transport and industrial sectors
could reduce urban carbon emissions by up to 25%. Spatially prioritizing
different types of NBS in 54 major European Union cities could reduce
anthropogenic carbon emissions by on average 17.4%. Coupling NBS with other
existing measures in Representative Concentration Pathway scenarios could
reduce total carbon emissions by 57.3% in 2030, with both indirect pathways
and sequestration. Our results indicate that carbon neutrality will be near
for some pioneering cities by 2030, while three can achieve it completely.
issn: 1758-6798
url: 'https://doi.org/10.1038/s41558-023-01737-x'
doi: 10.1038/s41558-023-01737-x