Strategies for adapting the dense Italian cities to the climate change

The case study of the San Salvario historical neighborhood

DOI: https://doi.org/10.6093/1970-9870/10212
Keywords: healthy city, nature-based solution, green infrastructures

Abstract

The urban fabric of European cities is subject to significant pressures from human activity and climate change. The devastating effects of climate change on urban environments threaten the quality of life of citizens and ecosystems. In particular, historic and dense cities face challenges in adapting their established urban fabric devoid of green areas. The lack of green spaces for social gatherings becomes a critical issue in addressing the climate and environmental crisis. This essay identifies the 19th-century neighbourhood of San Salvario in Turin, Italy, as a case study to develop a morphological analysis aimed at proposing nature-based strategies to improve the adaptation potential and resilience of this urban fabric. The analysis also compares European best practices, such as the cities of Barcelona and Copenhagen, which serve as examples of adaptive planning. The design elements identified in these two case studies provide inspiration for hypothesising replicable architectural solutions in dense urban contexts such as the study area under consideration. Finally, the paper addresses the limitations arising from the lack of holistic strategic planning, which in the case of Turin is based on fragmented interventions disconnected from the existing ecological network rather than on a long-term plan. The paper also reflects on the need to include additional assessments of ecosystem services, taking into account their economic valuation.

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Author Biographies

Roberta Ingaramo, Politecnico di Torino - Department of Architecture and Design

Architect, PhD, Associate Professor at Polytechnic of Turin (Italy), she teaches Architectural and Urban Composition. She conducts research ranging from urban regeneration to design through nature-based solutions, reuse, and the role of architectural design in the landscape.

Maicol Negrello, Politecnico di Torino

Architect, PhD, post-doctorate researcher and contract lecturer at the Department of Architecture and Design, Polytechnic of Turin (Italy). His research focuses on sustainable transition, on integrating nature-based solutions and the built environment in urban and rural contexts.

References

Ajuntaament de Barcelona, (2022), Supermanzana Barcelona: nueva etapa (2022), https://ajuntament.barcelona.cat/superilles/es/

Adams, M. P., & Smith, P. L. (2014). A systematic approach to model the influence of the type and density of vegetation cover on urban heat using remote sensing. Landscape and Urban Planning, 132, 47-54.

Bocco, A., San Salvario: il borgo più ottocentesco di Torino, in Il Museo della Frutta “Francesco Garnier Valletti”, a cura di D. Jalla, Ex-Officina Libraria, Milano, 2007, pp. 31-35.

Comune di Torino (2020), Piano di Resilienza Climatica, Luglio 2020, http://www.comune.torino.it/ambiente/bm~doc/resilienza-climatica_en.pdf

Comune di Torino (2020), Piano di Strategico dell’infrastruttura verde https://servizi.comune.torino.it/consiglio/prg/documenti1/atti/allegati/202002957_1tc.pdf

Conticelli E., Proli S., Santangelo A, Tondelli, S.. Salvaguardia e promozione del verde nella città compatta attraverso le politiche di pianificazione: il caso del RUE di Faenza, in urbanistica informazioni - special issue, 2015, pp. 44-47

Costa, S., Peters, R., Martins, R., Postmes, L., Keizer, J. J., & Roebeling, P. (2021). Effectiveness of nature-based solutions on pluvial flood hazard mitigation: The case study of the city of Eindhoven (the Netherlands). Resources, 10(3), 24.

Centro Euro-Mediterrano sui Cambiamenti Climatici (2023)

https://www.cmcc.it/article/less-frequent-more-intense-rain-the-most-detailed-climate-projection-over-italy-are-available

Ellena, M., Ballester, J., Costa, G., & Achebak, H. (2022) Evolution of temperature-attributable mortality trends looking at social inequalities: an observational case study of urban maladaptation to cold and heat, Environmental Research, 214, 114082.

Faivre N, Fritz M, Freitas T, de Boissezon B, Vandewoestijne S (2017) Nature-based solutions in the EU: innovating with nature to address social, economic and environmental challenges. Environmental Research 159:509–518. https://doi.org/10.1016/j.envres.2017.08.032

Fini, A., Frangi, P., Mori, J., Donzelli, D., & Ferrini, F. (2017). Nature-based solutions to mitigate soil sealing in urban areas: Results from a 4-year study comparing permeable, porous, and impermeable pavements. Environmental Research, 156, 443-454.

Haase, A. (2017), “The Contribution of Nature-BasedSolutions to Socially Inclusive Urban Development –Some Reflections from a Social-environmental Perspective”, in Kabisch, N., Korn, H., Stadler, J. and Bonn, A.(eds), Nature-Based Solutions to Climate Change Adaptation in Urban Areas – Theory and Practice of Urban Sustainability Transitions, Springer, Cham, pp. 221-236. doi.org/10.1007/978-3-319-56091-5_13

Ingaramo, R., & Negrello, M. (2023). “Surviving the City”. Nature as an Architecture Design Strategy for a More Resilient Urban Ecosystem. In Green Infrastructure: Planning Strategies and Environmental Design (pp. 139-150). Cham: Springer International Publishing.

Ingaramo, R., Negrello, M., Khachatourian Saradehi, L. and Khachatourian Saradehi, A. (2023) “Transcalar project of nature-based solutions for the 2030 Agenda. Innovations and interconnections”, AGATHÓN | International Journal of Architecture, Art and Design, 13, pp. 97–108. doi: 10.19229/2464-9309/1382023.

Martínez-Solanas, E., Quijal-Zamorano, M., Achebak, H., Petrova, D., Robine, J.-M., Herrmann, F. R., Rodó, X. and Ballester, J. (2021), “Projections of temperature-attributable mortality in Europe – A time series analysis of 147 contiguous regions in 16 countries”, in The Lancet planetary health, vol. 5, issue 7, pp. 446-454. doi.org/10.1016/S2542-5196(21)00150-9

Negrello, M., Roccaro, D., Santus, K., & Spagnolo, I. (2022). Designing the adaptation. The resilience of urban agriculture in the European context. AGATHÓN, 11, 74-83.

Negrello, M., & Ingaramo, R. (2021). Lo spazio del burn-out. Destrutturare per costruire forme alternative per l’abitare. Ardeth. A magazine on the power of the project, (8), 131-147.

Negrello, M. (2023). Designing with Nature Climate-Resilient Cities: A Lesson from Copenhagen. In: , et al. Technological Imagination in the Green and Digital Transition. CONF.ITECH 2022. The Urban Book Series. Springer, Cham. https://doi.org/10.1007/978-3-031-29515-7_76

Perini, K., Mosca, F. and Giachetta, A. (2021), “Rigenerazione urbana – Benefici delle nature-based solutions | Urban Regeneration – Benefits of nature-based solutions”, in Agathón | International Journal of Architecture, Art and Design, vol. 9, pp. 166-173.Available at: doi.org/10.19229/2464-9309/9162021

Rhoads, D., Solé-Ribalta, A., & Borge-Holthoefer, J. (2023). The inclusive 15-minute city: Walkability analysis with sidewalk networks. Computers, Environment and Urban Systems, 100, 101936.

Rousi, E., Kornhuber, K., Beobide-Arsuaga, G., Luo, F., & Coumou, D. (2022). Accelerated western European heatwave trends linked to more-persistent double jets over Eurasia. Nature Communications, 13(1), 3851.

Scalisi, F. and Ness, D. (2022), “Simbiosi tra vegetazione e costruito – Un approccio olistico, sistemico e multilivello | Symbiosis of greenery with built form – A holistic, systems, multi-level approach”, in Agathón | International Journal of Architecture, Art and Design, vol. 11, pp. 26-39. doi.org/10.19229/2464-9309/ 1122022

Spano D., Mereu V., Bacciu V., Marras S., Trabucco A., Adinolf M., Barbato G., Bosello F., Breil M.,Chiriacò M. V., Coppini G., Essenfelder A., Galluccio G., Lovato T., Marzi S., Masina S., Mercogliano P., Mysiak J., Noce S., Pal J., Reder A., Rianna G., Rizzo A., Santini M., Sini E., Staccione A., Villani V., Zavatarelli M., (2020). “Analisi del rischio. I cambiamenti climatici in Italia”. DOI: 10.25424/CMCC/ANALISI_DEL_RISCHIO

Tong, S., Prior, J., McGregor, G., Shi, X., & Kinney, P. (2021). Urban heat: an increasing threat to global health. bmj, 375.

Xu H, Liu L, Ding P (2021) Building climate resilient city through multiple scale cooperative planning: experiences from Copenhagen. IOP Conf Series Mater Sci Eng 1203(3):032063. https://doi.org/10.1088/1757-899X/1203/3/032063

Published
2024-03-04
How to Cite
IngaramoR., & NegrelloM. (2024). Strategies for adapting the dense Italian cities to the climate change. TeMA - Journal of Land Use, Mobility and Environment, (1), 115-136. https://doi.org/10.6093/1970-9870/10212
Issue
2024: What transition for cities? Scientific debate, research, approaches and good practices
Section
What transition for cities?

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