F05 - Pocket Parks as Nature-Based Solutions for Thermal Comfort, Urban Sustainability, and Community Participation
Comment
Pocket parks are increasingly recognized as valuable small-scale urban green spaces that enhance thermal comfort, urban sustainability, and community wellbeing. In dense urban environments where space is limited, they offer flexible nature-based solutions to address urban heat stress, climate adaptation, and social needs. These approaches provide multiple co-benefits, including heat reduction, biodiversity support, and improved human wellbeing, and are particularly effective when combined with local participation and engagement (Kabisch et al., 2016; Kabisch et al., 2017; WHO, 2020).
Pocket parks are especially relevant for studying thermal comfort, as their performance is shaped by vegetation structure, canopy cover, shading, materials, and spatial configuration. Research highlights the importance of vegetation arrangement and the interaction between green and built elements for cooling effects. At the same time, their success depends on accessibility, maintenance, safety, and user perception (Wang et al., 2024; Wang et al., 2025). They should therefore be understood as socio-environmental systems where climatic, spatial, and social factors interact.
This F-Project is embedded in an international cooperation between the City of Dortmund and the City of Trabzon (Turkey) within their sister-city agreement. In collaboration with the City of Dortmund and Karadeniz Technical University (KTÜ), selected sites in both cities serve as real-world case studies, providing a practice-oriented project with direct relevance to urban development. Students will investigate pocket parks as nature-based solutions by combining urban climate analysis, spatial assessment, and community-oriented approaches, focusing on thermal comfort and user experience. Subject to funding availability (e.g., DAAD or Erasmus),
opportunities for collaboration with students from KTÜ may include virtual exchange or a field trip to Trabzon or vice versa.
Recommended Methodologies:
This course adopts an interdisciplinary mixed-method approach combining qualitative insights with quantitative analyses:
• Microclimate observation and basic thermal assessment, including shading analysis and documentation of vegetation and material characteristics; where possible, simple measurements will be used to relate thermal conditions to spatial features (Bruse & Fleer, 1998)
• Mapping and field studies of pocket parks in Dortmund, including site visits, and collection of environmental and usage data
• Spatial and behavioral mapping to analyze site configuration, accessibility, movement patterns, and park use through observation and documentation
• Community participation through short interviews, questionnaires, or focus groups to understand user perceptions and needs
• Comparative case-based analysis to identify context-sensitive strategies and transferable insights
• Workshop sessions on research methods, data analysis, scientific writing, and presentation skills
By participating in this course project :
• Students will understand how pocket parks function as nature-based solutions in dense urban contexts
• Students will link thermal comfort, environmental assessment, and community participation within one framework
• Students will develop skills in research design, literature review, field data collection, and critical interpretation
• Students will gain experience in academic writing and evidence-based argumentation
• Students will explore the relationship between urban climate adaptation, public space quality, and green infrastructure
| Event no. | 0910305 |
| Event nugs SWS | 8 |
| Maximum number of participants | 12 |
| Study programs | B.Sc. Spatial Planning, 5-6 semesters |
| Persons |
| Tuesdays | Fridays | Intensive week |
| 14:00 - 18:00 | 14:00 - 18:00 | 08:00-18:00 |
| 20.10.2026 - 02.02.2027 | 16.10.2026 - 05.02.2027 | 16.11.-20.11.2026 |
| Cancellation dates: 17.11.2026 | Cancellation dates: 20.11.2026 | |
- Abdelmejeed, A. Y., & Gruehn, D. (2024a). Optimizing an efficient urban tree strategy to improve microclimate conditions while considering water scarcity: a case study of Cairo. Discover Sustainability , 5 (1). https://doi.org/10.1007/s43621-024-00247-w
- Barlow, J. F. (2014). Progress in observing and modelling the urban boundary layer. Urban Climate , 10 , 216–240. https://doi.org/10.1016/j.uclim.2014.03.011
- Bashirizadeh, M. (2021). The impact of the Persian garden principles as traditional ecological landscaping on thermal comfort:
Green strategies for climatic urban landscape design in Iran, based on Persian gardens analysis [Dissertation (Dr.-Ing.)]. DataCite. http://dx.doi.org/10.17877/DE290R-22595 - Bruse, M., & Fleer, H. (1998). Simulating surface–plant–air interactions inside urban environments with ENVI-met. Environmental Modelling & Software . Retrieved fromhttps://envi-met.com
- Cities4Forests. (n.d.). Toolkit for community participation in pocket parks.https://cities4forests.com/tools/toolkit-for-community-participation-in-pocket-parks/
- Gruehn, D. (2013). Germany Goes Green - Innovations towards a Sustainable Regional Development. World Technopolis Review, 1 (4), 230–239. doi.org/10.7165/wtr2012.1.4.230
- Kabisch, N., Frantzeskaki, N., Pauleit, S., Naumann, S., Davis, M., Artmann, M., Haase, D., Knapp, S., Korn, H., Stadler, J., Zaunberger, K., & Bonn, A. (2016). Nature-based solutions to climate change mitigation and adaptation in urban areas: Perspectives on indicators, knowledge gaps, barriers, and opportunities for action. Ecology and Society, 21(2), 39.https://doi.org/10.5751/ES-08373-210239
- Kabisch, N., Korn, H., Stadler, J., & Bonn, A. (Eds.). (2017). Nature-based solutions to climate change adaptation in urban areas: Linkages between science, policy and practice. Springer.https://doi.org/10.1007/978-3-319-56091-5
- Rosso, S., et al. (2022). Pocket parks for human-centered urban climate change resilience. Journal of Urban Design.https://doi.org/10.1080/13574809.2022.2085595
- Wang, Q., Liu, S., & Qian, J. (2025). A simulation approach to assessing vegetation configuration effects on thermal comfort in cold region pocket parks. Scientific Reports, 15, 28809.https://doi.org/10.1038/s41598-025-14749-8
- Wang, Y., et al. (2024). What affect the satisfaction, preferences, and visitation of pocket parks? Journal of Urban Management.https://www.sciencedirect.com/science/article/abs/pii/S221307802400032X
- World Health Organization Regional Office for Europe. (2020). Urban green space interventions and health: A review of impacts and effectiveness.https://www.who.int/europe/publications/m/item/urban-green-space-interventions-and-health--a-review-of-impacts-and-effectiveness
Successful completion of Modules 1, 2, 9, and 12 by the exam registration deadline for Coursework A (Exposé).
Course Requirement A (ungraded): Exposé
Course Requirement B (ungraded): Interim presentation, poster, and abstract as part of the project fair
Module Exam (graded): Final report, including defense
Registration for course requirements and the module exam takes place via the Campus Portal.
Upon successful completion of the project, a total of 24 CP will be credited for Module 3.





