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}
}
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.
Lessel, Tilia; Wellmann, Thilo
Umweltgerechtigkeit aus bürgerschaftlicher Perspektive: Handlungsempfehlung am Beispiel Berlin-Schöneberg Journal Article
In: Stadt+Grün, vol. 01, 2021.
Abstract | Links | BibTeX | Tags: Berlin, Climate Change, Climate Change Adaptation, Environmental justice, Urban development, Urban green infrastructure, Urban planning
@article{Thilo_Wellmann_107218183,
title = {Umweltgerechtigkeit aus bürgerschaftlicher Perspektive: Handlungsempfehlung am Beispiel Berlin-Schöneberg},
author = {Tilia Lessel and Thilo Wellmann},
url = {https://stadtundgruen.de/artikel/umweltgerechtigkeit-aus-buergerschaftlicher-perspektive-15076.html},
year = {2021},
date = {2021-01-01},
urldate = {2021-01-01},
journal = {Stadt+Grün},
volume = {01},
abstract = {Städte sind für die Umsetzung von Umweltgerechtigkeit von zentraler Bedeutung. Rund drei Viertel der EuropäerInnen leben in urbanen Räumen, so dass Fragen von Gerechtigkeit und Zugang zu Umweltqualitäten besonders hier entschieden werden. Zudem schaffen Städte durch ihre Baumasse Wärme- und Trockeninseln und damit ein besonders extremes, umwelt- und gesundheitsbelastendes Lokalklima. Vor diesem Hintergrund ist absehbar, dass die Effekte des Klimawandels die Städte besonders betreffen.},
keywords = {Berlin, Climate Change, Climate Change Adaptation, Environmental justice, Urban development, Urban green infrastructure, Urban planning},
pubstate = {published},
tppubtype = {article}
}
2020
Andersson, Erik; Haase, Dagmar; Scheuer, Sebastian; Wellmann, Thilo
Neighbourhood character affects the spatial extent and magnitude of the functional footprint of urban green infrastructure Journal Article
In: Landscape Ecology, vol. 35, no. 7, pp. 1605–1618, 2020.
Abstract | Links | BibTeX | Tags: Ecological flows, Land surfacae temperature, Landsat, Leipzig, Neighbouring effects, Rise-and-decay functions, Urban birds, Urban green infrastructure
@article{Andersson_2020,
title = {Neighbourhood character affects the spatial extent and magnitude of the functional footprint of urban green infrastructure},
author = {Erik Andersson and Dagmar Haase and Sebastian Scheuer and Thilo Wellmann},
url = {https://doi.org/10.1007%2Fs10980-020-01039-z},
doi = {10.1007/s10980-020-01039-z},
year = {2020},
date = {2020-06-01},
urldate = {2020-06-01},
journal = {Landscape Ecology},
volume = {35},
number = {7},
pages = {1605--1618},
publisher = {Springer Science and Business Media LLC},
abstract = {Context
Urban densification has been argued to increase the contrast between built up and open green space. This contrast may offer a starting point for assessing the extent and magnitude of the positive influences urban green infrastructure is expected to have on its surroundings.
Objectives
Drawing on insights from landscape ecology and urban geography, this exploratory study investigates how the combined properties of green and grey urban infrastructures determine the influence of urban green infrastructure on the overall quality of the urban landscape.
Methods
This article uses distance rise-or-decay functions to describe how receptive different land uses are to the influence of neighbouring green spaces, and does this based on integrated information on urban morphology, land surface temperature and habitat use by breeding birds.
Results
Our results show how green space has a non-linear and declining cooling influence on adjacent urban land uses, extending up to 300–400 m in densely built up areas and up to 500 m in low density areas. Further, we found a statistically significant declining impact of green space on bird species richness up to 500 m outside its boundaries.
Conclusions
Our focus on land use combinations and interrelations paves the way for a number of new joint landscape level assessments of direct and indirect accessibility to different ecosystem services. Our early results reinforce the challenging need to retain more green space in densely built up part of cities.},
keywords = {Ecological flows, Land surfacae temperature, Landsat, Leipzig, Neighbouring effects, Rise-and-decay functions, Urban birds, Urban green infrastructure},
pubstate = {published},
tppubtype = {article}
}
Urban densification has been argued to increase the contrast between built up and open green space. This contrast may offer a starting point for assessing the extent and magnitude of the positive influences urban green infrastructure is expected to have on its surroundings.
Objectives
Drawing on insights from landscape ecology and urban geography, this exploratory study investigates how the combined properties of green and grey urban infrastructures determine the influence of urban green infrastructure on the overall quality of the urban landscape.
Methods
This article uses distance rise-or-decay functions to describe how receptive different land uses are to the influence of neighbouring green spaces, and does this based on integrated information on urban morphology, land surface temperature and habitat use by breeding birds.
Results
Our results show how green space has a non-linear and declining cooling influence on adjacent urban land uses, extending up to 300–400 m in densely built up areas and up to 500 m in low density areas. Further, we found a statistically significant declining impact of green space on bird species richness up to 500 m outside its boundaries.
Conclusions
Our focus on land use combinations and interrelations paves the way for a number of new joint landscape level assessments of direct and indirect accessibility to different ecosystem services. Our early results reinforce the challenging need to retain more green space in densely built up part of cities.
Castillo-Cabrera, Fernando; Wellmann, Thilo; Haase, Dagmar
Urban Green Fabric Analysis Promoting Sustainable Planning in Guatemala City Journal Article
In: Land, 2020.
Abstract | Links | BibTeX | Tags: Guatemala City, Remote Sensing, Urban green infrastructure, Urban planning, Urbanisation
@article{Thilo_Wellmann_85962105,
title = {Urban Green Fabric Analysis Promoting Sustainable Planning in Guatemala City},
author = {Fernando Castillo-Cabrera and Thilo Wellmann and Dagmar Haase},
url = {http://doi.org/10.3390/land10010018},
doi = {10.3390/land10010018},
year = {2020},
date = {2020-01-01},
urldate = {2020-01-01},
journal = {Land},
abstract = {Urbanization rate in Central America is the second fastest worldwide and its major cities face challenges regarding urban sustainability. Urban Green Fabric (UGF) is an important material condition for the urban quality of life and, therefore, key to planning processes. We performed an analysis of the UGF of Guatemala City including the identification and classification of UGF, their spatial pattern analysis, construction of ensembles of districts (zones) and revealing citizen’s interactions with UGF. We used remote sensing and land use mapping techniques, spatial metrics and a questionnaire survey. Main results are the UGF map of Guatemala City and six ensembles of zones based on a set of indicators. We further revealed citizens’ recognition of green spaces, their perceptions about green space amount and availability as well as their support for UGF future interventions. Finally, we discuss the implications for planning promoted by our results and suggest three actions for UGF sustainability: Creation of new green spaces, protecting existing green spaces and enhancing the mosaic with different green spaces types. UGF is an essential decision support tool for a diversity of actors.},
keywords = {Guatemala City, Remote Sensing, Urban green infrastructure, Urban planning, Urbanisation},
pubstate = {published},
tppubtype = {article}
}