2023
Wellmann, Thilo; Andersson, Erik; Knapp, Sonja; Scheuer, Sebastian; Lausch, Angela; Palliwoda, Julia; Haase, Dagmar
Reinforcing nature-based solutions through tools providing social-ecological-technological integration Journal Article
In: Ambio, vol. 52, pp. 489–507, 2023.
Abstract | Links | BibTeX | Tags: Climate Change Adaptation, functional diversity, Nature-based solutions, nbs, Remote Sensing, resilience, sets, social-ecological-technological systems
@article{Wellmann2022b,
title = {Reinforcing nature-based solutions through tools providing social-ecological-technological integration},
author = {Thilo Wellmann and Erik Andersson and Sonja Knapp and Sebastian Scheuer and Angela Lausch and Julia Palliwoda and Dagmar Haase},
doi = {10.1007/s13280-022-01801-4},
year = {2023},
date = {2023-03-01},
urldate = {2022-01-01},
journal = {Ambio},
volume = {52},
pages = {489–507},
abstract = {While held to be a means for climate change adaptation and mitigation, nature-based solutions (NbS) themselves are vulnerable to climate change. To find ways of compensating for this vulnerability we combine a focused literature review on how information technology has been used to strengthen positive social–ecological–technological feedback, with the development of a prototype decision-support tool. Guided by the literature review, the tool integrates recent advances in using globally available remote sensing data to elicit information on functional diversity and ecosystem service provisioning with information on human service demand and population vulnerability. When combined, these variables can inform climate change adaptation strategies grounded in local social–ecological realities. This type of integrated monitoring and packaging information to be actionable have potential to support NbS management and local knowledge building for context-tailored solutions to societal challenges in urban environments.},
keywords = {Climate Change Adaptation, functional diversity, Nature-based solutions, nbs, Remote Sensing, resilience, sets, social-ecological-technological systems},
pubstate = {published},
tppubtype = {article}
}
While held to be a means for climate change adaptation and mitigation, nature-based solutions (NbS) themselves are vulnerable to climate change. To find ways of compensating for this vulnerability we combine a focused literature review on how information technology has been used to strengthen positive social–ecological–technological feedback, with the development of a prototype decision-support tool. Guided by the literature review, the tool integrates recent advances in using globally available remote sensing data to elicit information on functional diversity and ecosystem service provisioning with information on human service demand and population vulnerability. When combined, these variables can inform climate change adaptation strategies grounded in local social–ecological realities. This type of integrated monitoring and packaging information to be actionable have potential to support NbS management and local knowledge building for context-tailored solutions to societal challenges in urban environments.
2022
Wellmann, Thilo; Andersson, Erik; Knapp, Sonja; Scheuer, Sebastian; Lausch, Angela; Palliwoda, Julia; Haase, Dagmar
Reinforcing nature-based solutions through tools providing social-ecological-technological integration Journal Article
In: Ambio, 2022.
Links | BibTeX | Tags: Climate Change Adaptation, functional diversity, Nature-based solutions, nbs, Remote Sensing, resilience, sets, social-ecological-technological systems
@article{Wellmann2022,
title = {Reinforcing nature-based solutions through tools providing social-ecological-technological integration},
author = {Thilo Wellmann and Erik Andersson and Sonja Knapp and Sebastian Scheuer and Angela Lausch and Julia Palliwoda and Dagmar Haase},
doi = {10.1007/s13280-022-01801-4},
year = {2022},
date = {2022-01-01},
journal = {Ambio},
keywords = {Climate Change Adaptation, functional diversity, Nature-based solutions, nbs, Remote Sensing, resilience, sets, social-ecological-technological systems},
pubstate = {published},
tppubtype = {article}
}
2021
Scheuer, Sebastian; Jache, Jessica; Wellmann, Thilo; Wolff, Manuel; Haase, Dagmar
Outlining a semantics-based Sino- European UF-NBS typology Technical Report
2021.
Abstract | Links | BibTeX | Tags: Nature-based solutions, Semantics, Typology, Urban forest, Urban green infrastructure, Web application, Web Ontology Language
@techreport{Thilo_Wellmann_107218460,
title = {Outlining a semantics-based Sino- European UF-NBS typology},
author = {Sebastian Scheuer and Jessica Jache and Thilo Wellmann and Manuel Wolff and Dagmar Haase},
url = {https://clearinghouseproject.eu/wp-content/uploads/2021/11/D1_1_Report_on_a_novel_standardised_Sino__European_UFBS_typology_V1.pdf},
year = {2021},
date = {2021-03-31},
urldate = {2021-01-01},
journal = {H2020 project CLEARING HOUSE},
abstract = {This deliverable outlines the CLEARING HOUSE typology of urban forests as nature-based solutions (UF-NBS). The typology thus conceptualizes entities relevant to UF-NBS. To do so, elements of greenblue infrastructure (GBI) are defined in the typology. Contrary to purely textual representations of knowledge, CLEARING HOUSE proposes a definition of GBI elements through traits, i.e., characteristic and defining morphological, physical, functional, and institutional attributes, including for example the composition, spatial grouping, and topology of UF-NBS elements, and the ecosystem services and benefits provided them. CLEARING HOUSE proposes a semantic approach to express this knowledge, i.e., a formalization of knowledge as an ontology using the Web Ontology Language. Such ontologies are machineinterpretable series of statements
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.},
howpublished = {Clearing House Research and Innovation Action (RIA) This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 821242},
keywords = {Nature-based solutions, Semantics, Typology, Urban forest, Urban green infrastructure, Web application, Web Ontology Language},
pubstate = {published},
tppubtype = {techreport}
}
This deliverable outlines the CLEARING HOUSE typology of urban forests as nature-based solutions (UF-NBS). The typology thus conceptualizes entities relevant to UF-NBS. To do so, elements of greenblue infrastructure (GBI) are defined in the typology. Contrary to purely textual representations of knowledge, CLEARING HOUSE proposes a definition of GBI elements through traits, i.e., characteristic and defining morphological, physical, functional, and institutional attributes, including for example the composition, spatial grouping, and topology of UF-NBS elements, and the ecosystem services and benefits provided them. CLEARING HOUSE proposes a semantic approach to express this knowledge, i.e., a formalization of knowledge as an ontology using the Web Ontology Language. Such ontologies are machineinterpretable series of statements
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.
Scheuer, Sebastian; Jache, Jessica; Wellmann, Thilo; Wolff, Manuel; Haase, Dagmar
Outlining a semantics-based Sino- European UF-NBS typology Technical Report
2021.
Abstract | Links | BibTeX | Tags: Nature-based solutions, Semantics, Typology, Urban forest, Urban green infrastructure, Web application, Web Ontology Language
@techreport{Thilo_Wellmann_107218460b,
title = {Outlining a semantics-based Sino- European UF-NBS typology},
author = {Sebastian Scheuer and Jessica Jache and Thilo Wellmann and Manuel Wolff and Dagmar Haase},
url = {https://clearinghouseproject.eu/wp-content/uploads/2021/11/D1_1_Report_on_a_novel_standardised_Sino__European_UFBS_typology_V1.pdf},
year = {2021},
date = {2021-03-31},
urldate = {2021-01-01},
journal = {H2020 project CLEARING HOUSE},
abstract = {This deliverable outlines the CLEARING HOUSE typology of urban forests as nature-based solutions (UF-NBS). The typology thus conceptualizes entities relevant to UF-NBS. To do so, elements of greenblue infrastructure (GBI) are defined in the typology. Contrary to purely textual representations of knowledge, CLEARING HOUSE proposes a definition of GBI elements through traits, i.e., characteristic and defining morphological, physical, functional, and institutional attributes, including for example the composition, spatial grouping, and topology of UF-NBS elements, and the ecosystem services and benefits provided them. CLEARING HOUSE proposes a semantic approach to express this knowledge, i.e., a formalization of knowledge as an ontology using the Web Ontology Language. Such ontologies are machineinterpretable series of statements
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.},
howpublished = {Clearing House Research and Innovation Action (RIA) This project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 821242},
keywords = {Nature-based solutions, Semantics, Typology, Urban forest, Urban green infrastructure, Web application, Web Ontology Language},
pubstate = {published},
tppubtype = {techreport}
}
This deliverable outlines the CLEARING HOUSE typology of urban forests as nature-based solutions (UF-NBS). The typology thus conceptualizes entities relevant to UF-NBS. To do so, elements of greenblue infrastructure (GBI) are defined in the typology. Contrary to purely textual representations of knowledge, CLEARING HOUSE proposes a definition of GBI elements through traits, i.e., characteristic and defining morphological, physical, functional, and institutional attributes, including for example the composition, spatial grouping, and topology of UF-NBS elements, and the ecosystem services and benefits provided them. CLEARING HOUSE proposes a semantic approach to express this knowledge, i.e., a formalization of knowledge as an ontology using the Web Ontology Language. Such ontologies are machineinterpretable series of statements
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.
of facts to define a taxonomy (a vocabulary). The definitions of GBI elements are embedded within a formalization of overarching concepts, particularly, of urban forest, nature-based solutions (NBS), and of UF-NBS. Here, urban forest is conceptually understood as the entirety of trees within an urban-ecological system. NBS are perceived in CLEARING HOUSE as an overarching concept that embraces natural and semi-natural elements of the GBI such as forests, engineered solutions such as permeable pavements, as well as actions inspired by nature. UF-NBS are then conceptualized as the intersection of the two previous entities, i.e., as the intersection of urban forest and NBS, and thus include any tree-related NBS. The proposed typology will provide the grounding knowledge of the comparative case study analysis to be conducted by CLEARING HOUSE, and will serve as a basis for the development of the CLEARING HOUSE benchmarking tool.