Monograph

Progetto tecnologico e ambientale per ecosistemi urbani adattivi

  • Giulio Hasanaj,

The volume set in the contemporary debate on urban and architectural adaptation to the climate and ecological crisis, responding to the need for integrated design tools. Cities are spaces of vulnerability as well as laboratories of change: while responsible for a significant share of emissions, resource consumption and biodiversity loss, they simultaneously represent a privileged context for experimenting with strategies of systemic transformation. The book is conceived as a theoretical and practical guide to addressing this complexity through the principles of technological and environmental architectural design, contributing to the development of a new design culture capable of integrating climate resilience and urban biodiversity. Through the integration of theoretical frameworks, operational models and design solutions, the volume promotes a holistic vision of architecture and the city as dynamic systems able to adapt to change and to regenerate urban ecosystems.

  • Keywords:
  • Climate adaptation,
  • urban resilience,
  • urban biodiversity,
  • nature-based solutions,
  • technological and environmental design,
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Giulio Hasanaj

University of Florence, Italy - ORCID: 0000-0003-0069-3292

Giulio Hasanaj, architect, PhD, researcher of Technological and environmental design of architecture at the Department of Architecture at University of Florence (Italy) and for the National Biodiversity Future Center. Has conduct teaching and researcher activities at University of Tirana “Our Lady of Good Counsel” (Albania), Nanjing University (China), Tongji University of Shangai (China), Ecole d’Architecture at Université International de Rabat (Morocco) and Pontifica Universidad Catolica de Quito (Ecuador).
  1. AA. VV. (2023). Linee guida, indicatori, protocolli e modelli: Esiti del progetto di ricerca PRIN EUFORICC – Establishing Urban Forest Based Solutions in Changing Cities (20173RRN2S). Compagnia delle Foreste. DOI: 10.5281/zenodo.7950680
  2. AdapteCCA. (2025). Urban storm water management in Augustenborg, Malmö (Sweden). https://adaptecca.es/en/casos-practicos/urban-storm-water-management-augustenborg-malmo
  3. Ajuntament de Barcelona. (2018). Pla Clima 2018–2030: Barcelona’s Climate Plan. Barcelona City Council. https://bcnroc.ajuntament.barcelona.cat/jspui/bitstream/11703/138564/1/246388%20Aj%20Bcn%20PLA%20CLIMA%20.pdf
  4. Ajuntament de Barcelona. (2020). Towards Superblock Barcelona. https://ajuntament.barcelona.cat/premsa/wp-content/uploads/2020/11/201111-DOSSIER-Superilla-Barcelona-EN.pdf
  5. Ajuntament de Barcelona. (2025). The new green hubs and squares. https://ajuntament.barcelona.cat/superilles/en/content/the-new-green-hubs-and-squares
  6. Akbari, H., & Levinson, R. (2008). Evolution of cool-roof standards in the US. Advances in Building Energy Research, 2, 1-32. DOI: 10.3763/aber.2008.0201
  7. Al Koshta, H. (2024). Grønningen Bispeparken Climate Park / SLA. In: ArchDaily. https://www.archdaily.com/1026192/gronningen-bispeparken-climate-park-sla
  8. Alonso-Marroquin, F., & Qadir, G. (2023). Synergy between Photovoltaic Panels and Green Roofs. Energies, 16(13), 5184. DOI: 10.3390/en16135184
  9. Ambrosino, C. F., & Bassolino, E. (2016). Strumenti IT per la progettazione ambientale e il comfort indoor e outdoor / IT tool for the environmental design and indoor and outdoor comfort. In V. D’Ambrosio & M. F. Leone (Eds.). Progettazione ambientale per l’adattamento al climate change. Modelli innovativi per la produzione di conoscenza / Environmental design for climate change adaptation. Innovative models for the production of knowledge (pp. 112–125). CLEAN Edizioni.
  10. Angelillo, M. (2020). Vaia, due anni dopo: La natura dopo la tempesta. La Repubblica – Green & Blue. https://www.repubblica.it/green-and-blue/2020/10/15/foto/vaia_due_anni_dopo_la_natura_dopo_la_tempesta-270578901/1/
  11. Anguelovski, I., Shi, L., Chu, E., Gallagher, D., Goh, K., Lamb, Z., Reeve, K., & Teicher, H. (2016). Equity impacts of urban land use planning for climate adaptation: Critical perspectives from the global North and South. Journal of Planning Education and Research, 36(3), 333–348. DOI: 10.1177/0739456X16645166
  12. Arup & The Rockefeller Foundation. (2015). The City Resilience Framework (CRF). The Rockefeller Foundation. https://www.rockefellerfoundation.org/wp-content/uploads/100RC-City-Resilience-Framework.pdf
  13. Arup. (2016). City Resilience Index: Understanding and measuring city resilience. Arup. https://www.arup.com/globalassets/downloads/insights/city-resilience-index.pdf
  14. Atelier Jacqueline Osty (2015), Martin Luther King Park. In: Landezine. https://landezine.com/martin-luther-king-park-by-atelier-jacqueline-osty-associes/
  15. Ballard, B. W., Wilson, S., UdaleClarke, H., Illman, S., Scott, T., Ashley, R. and Kellagher, R. (2015). The SuDS Manual. C753. CIRIA, London, UK.
  16. Bassolino, E. (2019). The impact of climate change on local water management strategies: Learning from Rotterdam and Copenhagen. Journal of Urban Planning, Landscape & Environmental Design, 4(1), 21-40.
  17. Biljecki, F., Stoter, J., Ledoux, H., Zlatanova, S., & Çöltekin, A. (2021). Open government geospatial data on buildings for planning sustainable and resilient cities. arXiv preprint arXiv:2107.04023. https://arxiv.org/abs/2107.04023
  18. Bit, E. (2012). Il nuovo verde verticale. Tecnologie, Progetti, Linee Guida. Wolters Kluvers Italia. Assago.
  19. Bologna, R., & Hasanaj, G. (2020a). Blue infrastructures a Copenhagen. Il progetto di Tåsinge square / Blue infrastructures in Copenhagen. The project of Tåsinge square. In M. Losasso, M. T. Lucarelli, M. Rigillo, & R. Valente (Eds.), Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale / Adapting to the changing climate. Knowledge innovation for environmental design (pp. 381–388). Santarcangelo di Romagna, Italy: Maggioli.
  20. Bologna, R., & Hasanaj, G. (2020b). Water Square Benthemplein: spazi urbani multifunzionali a Rotterdam / Water Square Benthemplein: multifunctional urban spaces in Rotterdam. In: M. Losasso, M. T. Lucarelli, M. Rigillo, & R. Valente (Eds.), Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale / Adapting to the changing climate. Knowledge innovation for environmental design (pp. 373–380). Maggioli.
  21. Bologna, R., Hasanaj, G. (2020). Water Square Benthemplein: spazi urbani multifunzionali a Rotterdam. In: Losasso, M., Lucarelli, M.T., Rigillo, M., Valente, R. Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale, pp. 373-380, Sant’Arcangelo di Romagna (RM): Maggioli,
  22. Bologna, R., Losasso, M., Mussinelli, E., & Tucci, F. (Eds.). (2021). Dai distretti urbani agli eco-distretti: Metodologie di conoscenza, programmi strategici, progetti pilota per l’adattamento climatico / From urban district to eco-district: Knowledge methodologies, strategic programmes, pilot projects for climate adaptation. Maggioli Editore.
  23. Bulkeley, H., & Betsill, M. (2003). Cities and climate change: Urban sustainability and global environmental governance. Routledge.
  24. C40 Cities. (2020). Cities with a climate action plan. C40 Knowledge Hub. https://www.c40knowledgehub.org/s/article/Mapped-Cities-with-a-climate-action-plan
  25. Cabezas, A., & Montlleó, M. (2016). Barcelona’s strategies to increase and enhance urban green infrastructure: Policy brief 01 (Conexus NBS). Barcelona Regional. https://oppla.eu/sites/default/files/old_files/uploads/conexuspolicybrief-01barcelonaurbangia4-8ppen-screenres.pdf
  26. Capra, F. and Luisi, P. L. (2020), Vita e natura – Una visione sistemica, Aboca, Sansepolcro (AR).
  27. Carrington, D. (2024). Heat deaths in Europe may triple by end of the century, study finds. The Guardian. https://www.theguardian.com/society/article/2024/aug/21/heat-deaths-in-europe-may-triple-by-end-of-the-century-study-finds
  28. Carter, J. G., Cavan, G., Connelly, A., Guy, S., Handley, J., & Kazmierczak, A. (2014). Climate change and the city: Building capacity for urban adaptation. Progress in Planning, 95, 1–66. DOI: 10.1016/j.progress.2013.08.001
  29. Castán Broto, V., & Bulkeley, H. (2013). A survey of urban climate change experiments in 100 cities. Global Environmental Change, 23(1), 92–102. https://doi.org/10.1016/j.gloenvcha.2012.07.005
  30. Castellar, J. A. C., Popartan, L. A., Pueyo-Ros, J., Atanasova, N., Langergraber, G., Saumel, I., Corominas, L., Comas, J., & Acuña, V. (2021). Nature-based solutions in the urban context: Terminology, classification and scoring for urban challenges and ecosystem services. Science of the Total Environment, 779, 146237. DOI: 10.1016/j.scitotenv.2021.146237
  31. Cecafosso, V. (2020), Il progetto di rigenerazione integrata di Clichy-Batignolles a Parigi / The Clichy-Battignolles integrated regeneration project in Paris, in Losasso M. et al. (a cura di), Adattarsi al clima che cambia / Adapting to the Changing Climate, Maggioli, Sant’Arcangelo di Romagna, pp. 301–306.
  32. Centre for Research on the Epidemiology of Disasters & United Nations Office for Disaster Risk Reduction. (2020). The human cost of disasters: An overview of the last 20 years 2000–2019. Brussels: CRED/UNDRR. https://www.undrr.org/publication/human-cost-disasters-overview-last-20-years-2000-2019
  33. Chartier Dalix Architectes. (2014). Primary School for Sciences and Biodiversity / Chartier Dalix Architectes. ArchDaily. https://www.archdaily.com/585862/primary-school-for-sciences-and-biodiversity-chartier-dalix-architectes
  34. Chartier Dalix Architectes. (2021). New Headquarters of the AP-HP by Chartier Dalix. Landezine. https://landezine.com/new-headquarters-of-the-ap-hp-by-chartierdalix/
  35. City of Copenhagen. (2011). Copenhagen Climate Adaptation Plan. https://international.kk.dk/sites/default/files/2021-09/Copenhagen%20Climate%20Adaptation%20Plan%20-%202011.pdf
  36. City of Copenhagen. (2021). Climate adaptation and liveable city strategy. https://international.kk.dk/about-copenhagen/liveable-green-city/climate-adaptation
  37. City of Hamburg. (2018a). More Green Roofs for Hamburg. Ministry for Environment and Energy. https://www.hamburg.com/resource/blob/1057974/a5544533af6cba7305c0d8c58946fa96/d-more-green-roofs-for-hamburg-data.pdf
  38. City of Hamburg. (2018b). Hamburg’s Green Roofs – Economic Evaluation. Ministry for Environment and Energy. https://www.hamburg.com/resource/blob/1057968/4f3ba7ede2a8a5e1038f73e5f24a75b9/d-economic-evaluation-data.pdf
  39. City of Hamburg. (2019). Green Roofs – Guidelines for Planning. Free and Hanseatic City of Hamburg, Ministry for Environment and Energy. https://www.hamburg.de/resource/blob/281686/36db7143a42e38227e10190fc8262bb2/d-guidelines-data.pdf
  40. City of New York. (2024). AdaptNYC – City Climate Initiatives. https://www.nyc.gov/content/climate/pages/initiatives/adaptnyc
  41. City of Philadelphia. (2014). Green Streets Design Manual. https://www.phila.gov/media/20160504172218/Green-Streets-Design-Manual-2014.pdf
  42. Climate-ADAPT (2016a). Green roofs in Basel, Switzerland: Combining mitigation and adaptation measures. Climate-ADAPT. https://climate-adapt.eea.europa.eu/en/metadata/case-studies/green-roofs-in-basel-switzerland-combining-mitigation-and-adaptation-measures-1
  43. Climate-ADAPT. (2016b). Four pillars to Hamburg’s Green Roof Strategy: Financial incentive, dialogue, regulation, and science. European Environment Agency. https://climate-adapt.eea.europa.eu/en/metadata/case-studies/four-pillars-to-hamburg2019s-green-roof-strategy-financial-incentive-dialogue-regulation-and-science
  44. Climate-ADAPT. (2016c). The economics of managing heavy rains and stormwater in Copenhagen – The Cloudburst Management Plan. European Environment Agency. https://climate-adapt.eea.europa.eu/en/metadata/case-studies/the-economics-of-managing-heavy-rains-and-stormwater-in-copenhagen-2013-the-cloudburst-management-plan
  45. Climate-ADAPT. (2020). Urban stormwater management in Augustenborg, Malmö. European Environment Agency. https://climate-adapt.eea.europa.eu/en/metadata/case-studies/urban-storm-water-management-in-augustenborg-malmo
  46. Comune di Vicenza. (2024a). Parco della Pace: verso una regia unica che coordini tanti operatori. https://www.comune.vicenza.it/Novita/Comunicati/Parco-della-Pace-verso-una-regia-unica-che-coordini-tanti-operatori
  47. Comune di Vicenza. (2024b). Al Parco della Pace un nuovo progetto di riforestazione urbana. https://www.comune.vicenza.it/Novita/Comunicati/Al-Parco-della-Pace-un-nuovo-progetto-di-riforestazione-urbana
  48. Convention on Biological Diversity (2020). Global biodiversity outlook 5. https://www.cbd.int/gbo5
  49. Copenhagen Municipality (2018). Technical and Environmental Administration. Carl Nielsens Allé OS10. https://planer.kk.dk/spildevandsplan-2018/projekter/skybrudssikring/carl-nielsens-alle-os10/
  50. Copenhagen Municipality. (2017a). Construction of cloudburst protection and urban space improvements on Carl Nielsens Allé, Østerbro. https://www.kk.dk/dagsordener-og-referater/Økonomiudvalget/møde-07112017/referat/punkt-34
  51. Copenhagen Municipality. (2017b). Bilag 4. Carl Nielsens Allé - Proposed layout. https://www.kk.dk/sites/default/files/agenda/5dc9f3e8-ca9e-4097-b784-4b82d913ceb9/71df6876-85f8-4fe5-b0c6-0b3e09f8175d-bilag-4.pdf
  52. Copernicus Climate Change Service (2024). Resilience to climate extremes: 2024 European State of the Climate Report.European Centre for Medium-Range Weather Forecasts. https://climate.copernicus.eu/esotc/2024/resilience-climate-extremes
  53. Council of Europe Development Bank (2023). Resilience in action: Barcelona’s Superblock programme. https://coebank.org/media/documents/Thematic_Review_Barcelona_Superblock.pdf
  54. Croce, S. & Vettorato, D. (2021). Urban surface uses for climate resilient and sustainable cities: A catalogue of solutions. Sustainable Cities and Society, 75, Article 103313. DOI: 10.1016/j.scs.2021.103313
  55. D’Ambrosio, V. (2016). Knowledge of urban system and climate adaptive environmental design. In V. D’Ambrosio & M. F. Leone (Eds.), Environmental design for climate change adaptation 1. Innovative models for the production of knowledge (pp. 26–37). Clean Edizioni.
  56. D’Ambrosio, V., & Leone, M. F. (Eds.). (2016). Progettazione ambientale per l’adattamento al Climate Change. 1. Modelli innovativi per la produzione di conoscenza / Environmental Design for Climate Change Adaptation. 1. Innovative Models for the Production of Knowledge. Clean Edizioni.
  57. D’Ambrosio, V., & Leone, M. F. (Eds.). (2017). Progettazione ambientale per l’adattamento al Climate Change. 2. Strumenti e indirizzi per la riduzione dei rischi climatici / Environmental Design for Climate Change Adaptation. 2. Tools and Guidelines for Climate Risk Reduction. Clean Edizioni.
  58. D’Amico, G., L’Abbate, P., Liao, W., Yigitcanlar, T., & Ioppolo, G. (2020). Understanding Sensor Cities: Insights from Technology Giant Company Driven Smart Urbanism Practices. Sensors, 20(16), 4391. DOI: 10.3390/s20164391
  59. Daku (2024). DAKU Blue Green Roof (BGR): Nature-based solution for sustainable water management and green roofing. https://www.daku.it/storage/media/pdf/nMghI2/2024_brochure-daku_bgr_eng_web_compressed.pdf
  60. Danish Architecture Center (DAC). (2024). Grønningen-Bispeparken: From gray lawn to green oasis. DAC Knowledge Base. https://dac.dk/en/magazine/places/gronningen-bispeparken-from-gray-lawn-to-green-oasis-7
  61. De Bon, H., Parrot, L., & Moustier, P. (2010). Sustainable urban agriculture in developing countries: A review. Agronomy for Sustainable Development, 30(1), 21–32. DOI: 10.1051/agro:2008062
  62. De Urbanisten. (2016). Climate-adaptive ZOHO. UrbanAdapt. https://www.urbanadapt.eu/wp-content/uploads/2016/01/URBANISTEN_climate_adaptive_ZOHO_lr-strippresentatie.pdf
  63. De Urbanisten. (2025). Climate proof Zomerhofkwartier, Rotterdam. https://www.urbanisten.nl/work/climate-proof-zomerhofkwartier
  64. Dell’Acqua, F. (2023). Green infrastructure e climate adaptation design. Strategie, azioni e soluzioni nature-based per l’adattamento climatico in ambito urbano. CLEAN.
  65. Dessì, V., Farnè, E., Ravanello, L., Salomoni, M.T. (2017), Rigenerare la città con la natura Strumenti per la progettazione degli spazi pubblici tra mitigazione e adattamento ai cambiamenti climatici. Maggiolini editore, Centro stampa Regione Emilia-Romagna.
  66. Dodman, D., Hayward, B., Pelling, M., Castán Broto, V., Chow, W., Chu, E., Dawson, R., Khirfan, L., McPhearson, T., Prakash, A., Zheng, Y., & Ziervogel, G. (2022). Cities, Settlements and Key Infrastructure. In Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the IPCC. Cambridge University Press. https://www.ipcc.ch/report/ar6/wg2/downloads/report/IPCC_AR6_WGII_Chapter06.pdf
  67. Domeneghetti, A., Carisi, F., Castellarin, A., & Brath, A. (2015). Evolution of flood risk over large areas: Quantitative assessment for the Po River. Journal of Hydrology, 527, 809–823. DOI: 10.1016/j.jhydrol.2015.05.043
  68. Drainpanel (2025). Elemento e canale di drenaggio. (s. f.). Edilportale. https://www.edilportale.com/prodotti/geoplast/elemento-e-canale-di-drenaggio/drainpanel_247482.html
  69. Eisenberg, B., Chiesa, C., Fischer, L., Jakstis, K., & Polcher, H. G. (2022). Nature-based Solutions: Technical Handbook Factsheets. UNaLab / Urban Nature Labs.
  70. Elshaer, A., Gairola, A., Adamek, K., Bitsuamlak, G. (2017), Variations in wind load on tall buildings due to urban development. In: Sustainable Cities and Society 34, pp. 264-277. DOI: 10.1016/j.scs.2017.06.008
  71. ENEA (2024). Tetti e pareti verdi – Linee guida per l’edilizia sostenibile. https://italiainclassea.enea.it/filesystemMedia/1/2024/07/3884d264d0ed658791663d963b55bd62.pdf
  72. Etherington, R. (2012). Saint Kjeld’s Kvarter by Tredje Natur. Dezeen. https://www.dezeen.com/2012/08/18/saint-kjelds-climate-adapted-neighborhood-by-tredje-natur/
  73. EUCANET. (2017). BP&P_ ZOHO climate proof district.https://eucanet.wordpress.com/2017/11/14/bpp_-zoho-climate-proof-district/
  74. European Commission - Joint Research Centre (2025). Green Axes and Squares of BCN’s Eixample. New European Bauhaus Prizes. https://prizes.new-european-bauhaus.europa.eu/application/38546
  75. European Commission (2007). Green Paper “Adapting to climate change in Europe – options for EU action” (COM (2007) 354 final) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52007DC0354
  76. European Commission (2009). White Paper “Adapting to climate change: Towards a European framework for action” (COM (2009) 147 final). https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=COM%3A2009%3A0147%3AFIN%3AEN%3APDF
  77. European Commission (2010). Risk assessment and mapping for disaster management. European Commission. https://climate-adapt.eea.europa.eu/en/metadata/guidances/eu-commission-staff-working-paper-risk-assessment-and-mapping-guidelines-for-disaster-management
  78. European Commission (2013a). Communication “An EU Strategy on adaptation to climate change” (COM (2013) 216 final) https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52013DC0216
  79. European Commission (2013b). Green Infrastructure (GI) — Enhancing Europe’s Natural Capital [COM(2013) 249 final]. Publications Office of the European Union. https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX:52013DC0249
  80. European Commission (2014). 53 NWRM illustrated: A catalogue of measures for natural water retention. https://www.nwrm.eu/sites/default/files/documents-docs/53-nwrm-illustrated.pdf
  81. European Commission. (2020a). EU biodiversity strategy for 2030: Bringing nature back into our lives (COM(2020) 380 final). Publications Office of the European Union. https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52020DC0380
  82. European Commission. (2021). Forging a climate-resilient Europe: The new EU strategy on adaptation to climate change(COM(2021) 82 final). Publications Office of the European Union. https://eur-lex.europa.eu/legal-content/EN/TXT/?uri=CELEX%3A52021DC0082
  83. European Commission (2024). EU missions to address climate change in cities and regions: a projects info pack by CORDIS. Publications Office of the European Union. https://data.europa.eu/doi/10.2830/68329.
  84. European Environment Agency (2012), Urban adaptation to climate change in Europe — challenges and opportunities for cities together with supportive national and European policies, EEA Report No 2/2012, European Environment Agency. https://www.eea.europa.eu/en/analysis/publications/urban-adaptation-to-climate-change
  85. European Environment Agency (2017). Climate change, impacts and vulnerability in Europe 2016: An indicator-based report (EEA Report No. 1/2017). Copenhagen: EEA. https://www.eea.europa.eu/publications/climate-change-impacts-and-vulnerability-2016
  86. European Environment Agency (2018). Water use in Europe — quantity and quality face big challenges.https://www.eea.europa.eu/signals/signals-2018-content-list/articles/water-use-in-europe-2014
  87. European Environment Agency (2019a). Economic losses from climate-related extremes in Europe. Copenhagen: EEA. https://www.eea.europa.eu/data-and-maps/indicators/direct-losses-from-weather-disasters-4/assessment
  88. European Environment Agency (2019b). Land and soil in Europe — ever-sprawling urban concrete? https://www.eea.europa.eu/signals/signals-2019-content-list/articles/land-and-soil-in-europe
  89. European Environment Agency (2020c). Urban adaptation to climate change in Europe 2020: Transforming cities in a changing climate (EEA Report No 12/2020). https://www.eea.europa.eu/publications/urban-adaptation-in-europe
  90. European Environment Agency (2020a). Healthy environment, healthy lives: How the environment influences health and well-being in Europe (EEA Report No. 21/2019). Copenaghen: EEA. https://www.eea.europa.eu/en/analysis/publications/healthy-environment-healthy-lives
  91. European Environment Agency (2020b). Urban adaptation in Europe: How cities and towns respond to climate change (EEA Report No. 12/2020). Publications Office of the European Union. https://www.eea.europa.eu/en/analysis/publications/urban-adaptation-in-europe
  92. European Environment Agency (2021). Nature-based solutions in Europe: Policy, knowledge and practice for climate change adaptation and disaster risk reduction (EEA Report 01/2021). https://www.eea.europa.eu/en/analysis/publications/nature-based-solutions-in-europe
  93. European Environment Agency (2024a). European climate risk assessment. Publications Office of the European Union. https://www.eea.europa.eu/en/analysis/publications/european-climate-risk-assessment
  94. European Environment Agency (2024b). Global and European temperatures. https://www.eea.europa.eu/en/analysis/indicators/global-and-european-temperatures
  95. FAO, Rikolto and RUAF. (2022). Urban and peri-urban agriculture sourcebook – From production to food systems. Rome, FAO and Rikolto. DOI: 10.4060/cb9722en
  96. FAO. 2016. Guidelines on urban and peri-urban forestry, by F. Salbitano, S. Borelli, M. Conigliaro and Y. Chen. FAO Forestry Paper No.178.Rome, Food and Agriculture Organization of the United Nations. https://www.fao.org/3/i6210e/i6210e.pdf
  97. Feyen, L., Ciscar, J. C., Gosling, S., Ibarreta, D., & Soria, A. (2020). Climate change impacts and adaptation in Europe (JRC PESETA IV final report, EUR 30180 EN). Publications Office of the European Union. DOI: 10.2760/171121
  98. Filagrossi Ambrosino, C., & Leone, M. F. (2017). Catalogo di alternative tecniche per l’adattamento ai cambiamenti climatici. In V. D’Ambrosio & M. F. Leone (Eds.), Progettazione ambientale per l’adattamento al climate change. 2. Strumenti e indirizzi per la riduzione dei rischi climatici / Environmental Design for Climate Change adaptation. 2. Tools and Guidelines for Climate Risk Reduction (pp. 72–83). Napoli: CLEAN Edizioni.
  99. Food and Agriculture Organization of the United Nations, World Health Organization and World Organisation for Animal Health (2022). One Health joint plan of action (2022–2026): Working together for the health of humans, animals, plants and the environment. Food and Agriculture Organization of the United Nations. https://www.fao.org/documents/card/en/c/cc2289en
  100. Frago, L., & Morcuende, A. (2024). Urban planning paradoxes and sociospatial fragmentation: The superblock Barcelona case (2016–2023). International Journal of Urban and Regional Research, 48(6), 1055-1078. https://diposit.ub.edu/dspace/bitstream/2445/216756/1/870102.pdf
  101. Frantzeskaki, N. (2019). Seven lessons for planning nature-based solutions in cities. Environmental Science & Policy, 93,101–111. DOI: 10.1016/j.envsci.2018.12.033
  102. Fryd, O., Backhaus, A., Birch, H., Fratini, C. F., Ingvertsen, S. T., Jeppesen, J., Panduro, T. E., Roldin, M., & Jensen, M. B. (2013). Water sensitive urban design retrofits in Copenhagen – 40% to the sewer, 60% to the city. Water Science and Technology, 67(9), 1945–1952. DOI: 10.2166/wst.2013.073
  103. Fuller, R., Landrigan, P. J., Balakrishnan, K., Bathan, G., Bose-O’Reilly, S., Brauer, M., Caravanos, J., Chiles, T., Cohen, A., Corra, L., Cropper, M., Ferraro, G., Hanna, J., Hanrahan, D., Hu, H., Hunter, D., Janata, G., Kupka, R., Lanphear, B., Lichtveld, M., … Yan, C. (2022). Pollution and health: A progress update. The Lancet Planetary Health, 6(6), e535-e547. DOI: 10.1016/S2542-5196(22)00090-0
  104. Gallo, E., Quijal-Zamorano, M., Méndez Turrubiates, R. F., et al. (2024). Heat-related mortality in Europe during 2023 and the role of adaptation in protecting health. Nature Medicine, 30, 3101–3105. DOI: 10.1038/s41591-024-03186-1
  105. Gasperini, P., Manfredi, G., & Asperone, D. (2014). Resilience and sustainability in relation to natural disasters: A challenge for future cities. Springer. DOI: 10.1007/978-3-319-04316-6
  106. Ghosh, A. (2022), La maledizione della noce moscata – Parabole per un pianeta in crisi, Neri Pozza, Vicenza.
  107. Green Cities Europe Award. (2024). Italy – Green Cities Europe Award 2024: Parco della Pace (Italy). The Green Cities Europe Award. https://award.thegreencities.eu/award-2024/italy/
  108. GrowGreen Project. (2021). Hamburg Green Roof Strategy – Case Study Presentation. https://growgreenproject.eu
  109. Haer, T., Busker, T., de Moel, H., Wens, M., Meijer, L., Aerts, J., Brüggen, J., Solcerova, A., Föllmi, D., Corpel, L., & Kluck, J. (2022). Final report – The building-scale performance of blue-green roofs (RESILIO Deliverable O6.3.1). Urban Innovative Actions; Vrije Universiteit Amsterdam; Hogeschool van Amsterdam. https://openresearch.amsterdam/image/2022/4/8/final_report_resilio_o6_3_1_impact_on_roof.pdf
  110. Henrique, K. P. (2024). Repositioning marginal spaces in climate adaptation: Periphery, power and possibility. In M. Armiero, E. Turhan, & S. P. De Rosa (Eds.), Urban movements and climate change: Loss, damage and radical adaptation (pp. 161–181). Amsterdam University Press.
  111. Houchmand, L. J., Martí, M. M., & Gassó-Domingo, S. (2025). Photovoltaics and green roofs: Holistic analysis in built environments. Renewable and Sustainable Energy Reviews, 207, 114987.
  112. Intergovernmental Panel on Climate Change (2001). Climate Change 2001: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge University Press. https://www.ipcc.ch/report/ar3/wg2/
  113. Intergovernmental Panel on Climate Change (2014). Annex II: Glossary. In V. R. Barros, C. B. Field, D. J. Dokken, M. D. Mastrandrea, K. J. Mach, T. E. Bilir, ... & L. L. White (Eds.), Climate Change 2014: Impacts, Adaptation, and Vulnerability. Part B: Regional Aspects. Contribution of Working Group II to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change (pp. 1757–1776). Cambridge University Press. https://www.ipcc.ch/site/assets/uploads/2018/02/WGIIAR5-AnnexII_FINAL.pdf
  114. Intergovernmental Panel on Climate Change (2018). Global warming of 1.5°C: An IPCC special report on the impacts of global warming of 1.5°C above pre-industrial levels and related global greenhouse gas emission pathways, in the context of strengthening the global response to the threat of climate change, sustainable development, and efforts to eradicate poverty (V. Masson-Delmotte, P. Zhai, H.-O. Pörtner, D. Roberts, J. Skea, P. R. Shukla, A. Pirani, W. Moufouma-Okia, C. Péan, R. Pidcock, S. Connors, J. B. R. Matthews, Y. Chen, X. Zhou, M. I. Gomis, E. Lonnoy, T. Maycock, M. Tignor, & T. Waterfield, Eds.). Intergovernmental Panel on Climate Change. https://www.ipcc.ch/sr15/
  115. Intergovernmental Panel on Climate Change (2021). Climate Change 2021: The Physical Science Basis. Contribution of Working Group I to the Sixth Assessment Report of the IPCC. Cambridge University Press. https://www.ipcc.ch/report/ar6/wg1/
  116. Intergovernmental Panel on Climate Change (2022a). Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the IPCC. Chapter 6: Cities, Settlements and Key Infrastructure. Cambridge University Press. https://www.ipcc.ch/report/ar6/wg2/
  117. Intergovernmental Panel on Climate Change (2022b). Regional Fact Sheet: Urban Areas. In AR6 Working Group I Report. https://www.ipcc.ch/report/ar6/wg1/downloads/factsheets/IPCC_AR6_WGI_Regional_Fact_Sheet_Urban_areas.pdf
  118. Intergovernmental Panel on Climate Change (2022c). Climate Change 2022: Mitigation of Climate Change. Contribution of Working Group III to the Sixth Assessment Report of the IPCC. Chapter 8: Urban Systems and Other Settlements. Cambridge University Press. https://www.ipcc.ch/report/ar6/wg3/
  119. Intergovernmental Panel on Climate Change (2023). AR6 Synthesis Report: Climate Change 2023. Geneva, Switzerland: IPCC. https://www.ipcc.ch/report/ar6/syr/
  120. Intergovernmental science-policy platform for biodiversity and ecosystem services (2019). Global assessment report on biodiversity and ecosystem services. Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. https://www.ipbes.net/global-assessment
  121. Interlace Hub. (2020). Green roof strategy – Basel. Interlace Knowledge Hub. https://interlace-hub.com/green-roof-strategy-basel
  122. Interlace Hub. (2023). Green Roof Strategy Hamburg. https://interlace-hub.com/green-roof-strategy-hamburg
  123. Internal Displacement Monitoring Centre (2019). Global report on internal displacement 2019. Geneva: IDMC. https://www.internal-displacement.org/global-report/grid2019/
  124. International Energy Agency (2023). Denmark Climate Resilience Policy Indicator. IEA Reports. https://www.iea.org/reports/denmark-climate-resilience-policy-indicator
  125. Istituto Superiore per la Protezione e la Ricerca Ambientale. (2023a). Strategie e piani di adattamento ai cambiamenti climatici (Indicatore nazionale, stato 2021–2023). https://indicatoriambientali.isprambiente.it/it/clima/strategie-e-piani-di-adattamento-ai-cambiamenti-climatici
  126. Istituto Superiore per la Protezione e la Ricerca Ambientale. (2023b). I sindaci d’Europa per neutralità e resilienza climatica al 2050 e contro la povertà energetica (Comunicato stampa). https://www.isprambiente.gov.it/it/istituto-informa/comunicati-stampa/anno-2023/i-sindaci-d2019europa-per-neutralita-e-resilienza-climatica-al-2050-e-contro-la-poverta-energetica
  127. Iwaszuk, E., Rudik, G., Duin, L., Mederake, L., Davis, M., Naumann, S., & Wagner, I. (2019). Addressing climate change in cities: Catalogue of urban nature-based solutions. Ecologic Institute & Sendzimir Foundation. https://www.ecologic.eu/sites/default/files/publication/2020/addressing-climate-change-in-cities-nbs_catalogue.pdf
  128. Kabisch, N., Korn, H., Stadler, J., & Bonn, A. (Eds.). (2017). Nature-based solutions to climate change adaptation in urban areas. Springer. DOI: 10.1007/978-3-319-56091-5
  129. Klimakvarter. (2013). Copenhagen climate resilient neighbourhood. http://www.klimakvarter.dk/wp-content/2013/03/klimakvarter_ENG_low.pdf
  130. Koks, E. E., Haer., T., (2020), “A high-resolution wind damage model for Europe”, in Scientific Reports 10(1), p. 6866. DOI: 10.1038/s41598-020-63580-w
  131. Konijnendijk, C. C., Nilsson, K., Randrup, T. B., & Schipperijn, J. (2006). Urban forests and trees. Springer-Verlag. DOI: 10.1007/3-540-27684-X
  132. Krosby M, Theobald DM, Norheim R, McRae BH (2018). Identifying riparian climate corridors to inform climate adaptation planning. PLoS ONE 13(11): e0205156. DOI: 10.1371/journal.pone.0205156
  133. Kuchelmeister, G. (2000). Urban forestry in developing countries: Status and prospects. Food and Agriculture Organization of the United Nations. https://www.fao.org/4/i0152e/i0152e03.pdf
  134. Lambertini, A. (2014). New urban natures. In: Pulselli, R. M., Paolinelli, G., Bastianoni, S. (a cura di). The rampant garden. Let’s make building walls live. Solutions for sustainable cities. Edifir Edizioni Firenze, Firenze, pp. 20-45.
  135. Landezine (2021). Residential Complex “In Gärten” by Neuland ArchitekturLandschaft.https://landezine.com/residential-complex-in-garten-by-neuland-architekturlandschaft/
  136. Landezine International Landscape Award (2023). Carl Nielsens Allé by WERK Arkitekter. https://landezine-award.com/carl-nielsens-alle/
  137. Landezine. (2023). Carl Nielsens Allé by WERK. https://landezine.com/carl-nielsens-alle-by-werk/
  138. Landezine. (2025a). Parco della Pace by PAN Associati and EMF – Estudi Martí Franch.https://landezine.com/parco-della-pace-by-pan-associati-and-emf-estudi-marti-franch/
  139. Landezine. (2025b). Grønningen-Bispeparken by SLA. https://landezine.com/gronningen-bispeparken-by-sla
  140. Landrigan, P. J., Fuller, R., Acosta, N. J. R., Adeyi, O., Arnold, R., Basu, N., … Zhong, M. (2018). The Lancet Commission on pollution and health. The Lancet, 391(10119), 462-512. DOI: 10.1016/S0140-6736(17)32345-0
  141. Legambiente. (2022). Emergenza Clima: il Rapporto dell’Osservatorio CittàClima 2022. Legambiente. https://www.legambiente.it/comunicati-stampa/emergenza-clima-il-rapporto-dellosservatorio-cittaclima-2022
  142. Leone M.F. & Zuccaro G. (2020). Servizi Climatici per il progetto supporto allo sviluppo di strategie di adattamento urbano: l’approccio del progetto H2020 CLARITY. In: D’Ambriosio V., Rigillo M., Tersigni E. (a cura di) Transizioni Conoscenza e progetto climate proof, CLEAN Edizioni, Napoli, pp. 265-276.
  143. Living Architecture Monitor. (2022). On the roof with the father of green roof biodiversity research. Living Architecture Monitor. https://livingarchitecturemonitor.com/articles/the-father-of-biodiversity-research-on-green-roofs-su22
  144. Lopes, A., Oliveira, S., Fragoso, M., Andrade, J., & Pedro, P. (2009). Wind risk assessment in urban environments: The case of falling trees during windstorm events in Lisbon. In K. Střelcová, C. Mátyás, A. Kleidon, & M. Lapin (Eds.), Bioclimatology and natural hazards (pp. 55–74). Springer. DOI: 10.1007/978-1-4020-8876-6_5
  145. Losasso M., Leone, M.F., Tersigni, E., (2020b), “Approcci di computational design per la rigenerazione resiliente dello spazio pubblico/Computational design based approaches for public space resilient regeneration” in TECHNE 19 - Journal of Technology for Architecture and Environment, Spazio pubblico / Public space, FUP Press, Firenze, pp. 223-241.
  146. Losasso, M. (2021). L’innovazione del progetto ambientale nel nuovo regime climatico / Environmental design innovation in the new climate regime. In R. Bologna, M. Losasso, E. Mussinelli, & F. Tucci (Eds.), Dai distretti agli eco-distretti: Metodologie di conoscenza, programmi strategici, progetti pilota per l’adattamento climatico / From urban district to eco-district: Knowledge methodologies, strategic programmes, pilot projects for climate adaptation (pp. 7–10). Maggioli Editore.
  147. Losasso, M., Lucarelli, M. T., Rigillo, M., & Valente, R. (Eds.). (2020a). Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale / Adapting to the Changing Climate. Knowledge Innovation for Environmental Design. Maggioli Editore.
  148. Lucarelli, M.T., Mussinelli, E., Daglio, L. (2018), Progettare resiliente, Maggioli editore, Milano.
  149. Magrinya, F., Mercadé-Aloy, J., & Ruiz-Apilánez, B. (2023). Merging green and active transportation infrastructure towards an equitable accessibility to green areas: Barcelona green axes. Land, 12(4), 919. https://upcommons.upc.edu/bitstreams/bc7d46c4-4f6e-47be-9ae7-7f0b7f1d4bef/download
  150. Mancuso, S. (2023). Fitopolis. La città vivente. Laterza.
  151. Manso, M., & Castro-Gomes, J. (2015). Green wall systems: A review of their characteristics. Renewable and Sustainable Energy Reviews, 41, 863–871. DOI: 10.1016/j.rser.2014.07.203
  152. Meerow, S., Newell, J. P., & Stults, M. (2016). Defining urban resilience: A review. Landscape and Urban Planning, 147, 38–49. DOI: 10.1016/j.landurbplan.2015.11.011
  153. Menezes, F. (2023). How one Swiss city made green roofs a legal requirement in bid to tackle climate change. BrightVibes. https://www.brightvibes.com/how-one-swiss-city-made-green-roofs-a-legal-requirement-in-bid-to-tackle-climate-change
  154. Mezzi, P. (2015). San Kjeld, Copenhagen: ecco il primo quartiere “resiliente”. Abitare. https://www.abitare.it/it/architettura/architettura-sostenibile/2015/03/01/san-kjeld-copenhagen-quartiere-resiliente/
  155. Miller, R. W. (1998). Urban forestry: Planning and managing urban greenspaces (2ª ed.). Prentice Hall.
  156. Ministero dell’Ambiente e della Sicurezza Energetica (2015). Strategia Nazionale di Adattamento ai Cambiamenti Climatici (SNAC). Roma: Ministero dell’Ambiente e della Sicurezza Energetica. https://www.mase.gov.it/portale/documents/d/guest/strategia-adattamentocc-pdf
  157. Ministero dell’Ambiente e della Sicurezza Energetica (2023). Piano Nazionale di Adattamento ai Cambiamenti Climatici (PNACC). Decreto 21 dicembre 2023, n. 434. Gazzetta Ufficiale della Repubblica Italiana, Serie Generale n. 42, 20 Febbraio 2024. https://www.mase.gov.it/portale/-/clima-approvato-il-piano-nazionale-di-adattamento-ai-cambiamenti-climatici
  158. Mooool (2020). Residential Complex “In Gärten” by Neuland ArchitekturLandschaft GmbH. https://mooool.com/en/residential-complex-in-garten-by-neuland-architekturlandschaft-gmbh.html
  159. Morato, L. C. (2024). Suburban climate adaptation governance: Assumptions and imaginaries affecting peripheral municipalities. Buildings & Cities, 5(1), 64-82. DOI: 10.5334/bc.381
  160. Mougeot, L. J. A. (2000). Urban agriculture: Definition, presence, potentials and risks. Growing Cities, Growing Food: Urban Agriculture on the Policy Agenda (pp. 1–42). DSE.
  161. Musco, F., Maragno, D., & Litt, G. (2018). Abaco di azioni di adattamento ai cambiamenti climatici: Verso paesaggi dell’abitare e del lavorare a prova di clima. Città Metropolitana di Milano; Fondazione Cariplo.
  162. Mussinelli, E., Gambaro, M., Riva, R., Cerati, D., Tartaglia, A. (2020a). Nature-Based Solutions. In: Losasso M., Lucarelli M.T., Rigillo, M., Valente R., Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale/Adapting to the Changing Climate. Knoledge Innovetion for Environmental Design, Sant’Arcangelo di Romagna (RM), Maggioli, pp. 127-130.
  163. Mussinelli, E., Gambaro, M., Riva, R., Cerati, D., Tartaglia, A. (2020b). Infrastrutture verdi / Green infrastructures. In: Losasso M., Lucarelli M.T., Rigillo, M., Valente R., Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale/Adapting to the Changing Climate. Knoledge Innovetion for Environmental Design, Sant’Arcangelo di Romagna (RM), Maggioli, pp. 123-126.
  164. Mussinelli, E., Riva, R., Gambaro, M., & Tartaglia, A. (2020). La riconversione ambientale di Ekostaden Augustenborg a Malmö. In: M. Losasso, M. T. Lucarelli, M. Rigillo, & R. Valente (Eds.), Adattarsi al clima che cambia. Innovare la conoscenza per il progetto ambientale / Adapting to the changing climate. Knowledge innovation for environmental design. Maggioli.
  165. Neuland ArchitekturLandschaft GmbH (2018). Portfolio Update 04/2018. Zurigo. https://www.neulandarch.ch/034_180410_Portfolio_Web.pdf
  166. Nieuwenhuijsen, M. J., Khomenko, S., Rueda, S., & Mueller, N. (2024). The Superblock model: A review of an innovative urban model. Environmental Research, 250, 118550. DOI: 10.1016/j.envres.2024.118550
  167. Niranjan, A. (2025). ‘Green roofs deliver for biodiversity’: how Basel put nature on top. The Guardian. https://www.theguardian.com/environment/2025/feb/28/green-roofs-deliver-for-biodiversity-how-basel-put-nature-on-top
  168. NIRAS. (2024). Climate adaptation of Grønningen Bispeparken. NIRAS Projects. https://www.niras.com/projects/climate-adaption-of-groenningen-bispeparken
  169. Oke, T. R. (1982), “The energetic basis of the urban heat island”, in Quarterly Journal of the Royal Meteorological Society, 108: 1 -24.
  170. Oppla. (2025). Basel, Switzerland: Green roofs – Combining mitigation and adaptation measures. Oppla Case Study Database. https://oppla.eu/case-study/basel-switzerland-green-roofs-combining-mitigation-and-adaptation-measures
  171. Organisation for Economic Co-operation and Development. (2010). Cities and Climate Change, OECD Publishing, Paris. DOI: 10.1787/9789264091375-en.
  172. Orsini, F., Kahane, R., Nono-Womdim, R., & Gianquinto, G. (2013). Urban agriculture in the developing world: A review. Agronomy for Sustainable Development, 33(4), 695–720. DOI: 10.1007/s13593-013-0143-z
  173. Palumbo, M. (2017), Clichy-Batignolles: abitare a energia positiva. In: Domusweb. https://www.domusweb.it/it/architettura/2017/11/10/clichy-batignolles-abitare-a-energia-positiva.html
  174. PAN Associati. (2017). Parco della Pace, Vicenza. https://www.panassociati.it/progetto/parco-della-pace-vicenza/
  175. Paris Batignolles Aménagement (2015). The Eco-District. A Reference in Sustainable Urban Development in Paris, Press Kit. https://archive-clichy-batignolles.parisetmetropole-amenagement.fr/sites/default/files/exe_web_cb_dossierpresse-en_2.pdf
  176. Pearlmutter, D., Theochari, D., Nehls, T., Pinho, P., Piro, P., Korolova, A., Papaefthimiou, S., Garcia Mateo, M. C., Calheiros, C., Zluwa, I., Pitha, U., Schosseler, P., Florentin, Y., Ouannou, S., Gal, E., Aicher, A., Arnold, K., Igondová, E., & Pucher, B. (2020). Enhancing the circular economy with nature-based solutions in the built urban environment: Green building materials, systems and sites. Blue-Green Systems, 2(1), 46–72. DOI: 10.2166/bgs.2019.928
  177. Peinhardt, K. (2021). Resilience through placemaking: Public spaces in Rotterdam’s climate adaptation approach.Discussion Paper 1/2021, Deutsches Institut für Entwicklungspolitik (IDOS). https://www.idos-research.de/uploads/media/DP__1.2021.pdf
  178. Perini, K. (2013). Progettare il verde in città. Franco angeli. Milano.
  179. Perini, K. (2021). Progettare il verde in città. Una strategia per l’architettura sostenibile. Spazi verdi al suolo. Coperture verdi. Verde verticale. Norme e casi studio. Franco Angeli.
  180. Pescaroli, G., & Alexander, D. E. (2015). A definition of cascading disasters and cascading effects: Going beyond the “toppling dominos” metaphor. Planet@Risk, 3(1), 58–67. Global Risk Forum Davos.
  181. Puliafito, A. (2025a). Cosa insegna il Parco della Pace. In: Slow News. https://www.slow-news.com/serie/tra-guerre-e-paci/cosa-insegna-il-parco-della-pace
  182. Puliafito, A. (2025b). Tra guerre e paci: la storia del Parco della pace a Vicenza. In: Slow News. https://www.slow-news.com/serie/tra-guerre-e-paci
  183. Rabbi, O. (2025). Parco della Pace: biodiversità e resilienza a Vicenza. In: InfoBuild Energia. https://www.infobuildenergia.it/progetti/parco-della-pace-biodiversita-vicenza/
  184. Radić, M., Brković Dodig, M., & Auer, T. (2019). Green facades and living walls — A review establishing the classification of construction types and mapping the benefits. Sustainability, 11(17), 4579. DOI: 10.3390/su11174579
  185. Reckien, D., Flacke, J., Dawson, R. J., Heidrich, O., Olazabal, M., Foley, A., Hamann, J. J.-P., Orru, H., Salvia, M., de Gregorio Hurtado, S., Geneletti, D., & Pietrapertosa, F. (2014). Climate change response in Europe: What’s the reality? Analysis of adaptation and mitigation plans from 200 urban areas in 11 countries. Climatic Change, 122(1-2), 331–340. DOI: 10.1007/s10584-013-0989-8
  186. REGREEN Project. (2021). Green Roof Strategy – Collaborative Governance Hamburg & London. REGREEN Factsheet. https://www.regreen-project.eu/wp-content/uploads/REGREEN-factsheet-GREEN-ROOF-STRATEGY_Collaborative-Governance-Hamburg_-London_neu.pdf
  187. Reid, H., Cannon, T., Berger, R., Alam, M., & Milligan, A. (2009). Community-based adaptation to climate change: An overview. Participatory Learning and Action, 60(1), 11–33. International Institute for Environment and Development (IIED). https://pubs.iied.org/14573iied
  188. Resilient Cities Network. (2022). Barcelona’s Superblocks: Towards the city we want. https://resilientcitiesnetwork.org/downloadable_resources/UR/SP/2022/220504_play_Barcelona2.pdf
  189. Revolve. (2024). Future-proofing Copenhagen: Urban resilience through nature-based solutions. Revolve Media. https://revolve.media/opinions/future-proofing-copenhagen
  190. Richardson, K., Steffen, W., Lucht, W., Bendtsen, J., Cornell, S. E., Donges, J. F., Drüke, M., Fetzer, I., Bala, G., von Bloh, W., Feulner, G., Fiedler, S., Gerten, D., Gleeson, T., Hofmann, M., Huiskamp, W., Kummu, M., Mohan, C., Nogués-Bravo, D., … Rockström, J. (2023). Earth beyond six of nine planetary boundaries. Science Advances, 9(37), Article eadh2458. DOI: 10.1126/sciadv.adh2458
  191. Richter, K. (2016). Neuer Einsatz für alte Gleise. planung & gestaltung | Öffentliche Plätze, Ausgabe 8 (Dezember 2015/Januar 2016). https://gruen-werk.com/gw-content/uploads/2021/02/Zollhallenplatz-Freiburg_aussenraum_12_15.pdf
  192. Richter, M., & Dickhaut, W. (2023). Long-term performance of blue-green roof systems: Results of a building-scale monitoring study in Hamburg, Germany. Water, 15(15), 2806. DOI: 10.3390/w15152806
  193. Rockström, J., Steffen, W., Noone, K., Persson, Å., Chapin III, F. S., Lambin, E. F., Lenton, T. M., Scheffer, M., Folke, C., Schellnhuber, H. J., Nykvist, B., De Wit, C. A., Hughes, T., van der Leeuw, S., Rodhe, H., Sörlin, S., Snyder, P. K., Costanza, R., Svedin, U., ... Foley, J. A. (2009). A safe operating space for humanity. Nature, 461(7263), 472–475. DOI: 10.1038/461472a
  194. Rueda, S. (2017). Superblocks for the design of new cities and renovation of existing ones: Barcelona’s case. In Urban Mobility: New Models for New Needs (pp. 1–15). Fundación Ecología Urbana y Territorial. https://feut.org/wp-content/uploads/2017-RUEDA-S.-SUPERBLOCKS-FOR-THE-DESIGN-OF-NEW-CITIES-AND-RENOVATION-OF-EXISTING-ONES-BARCELONAS-CASE.pdf
  195. Russo, S., Dosio, A., Graversen, R. G., Sillmann, J., Carrao, H., Dunbar, M. B., Singleton, A., Montagna, P., Barbola, P., & Vogt, J. V. (2014). Magnitude of extreme heat waves in present climate and their projection in a warming world. Journal of Geophysical Research: Atmospheres, 119(23), 12,500–12,512. DOI: 10.1002/2014JD022098
  196. Santamouris, M. (2014). Cooling the cities–a review of reflective and green roof mitigation technologies to fight heat island and improve comfort in urban environments. Solar energy, 103, 682-703. DOI: 10.1016/j.solener.2012.07.003
  197. Schipper, E. L. F., Revi, A., Preston, B. L., Carr, E. R., Eriksen, S. H., Fernández-Carril, L. R., Glavovic, B. C., Hilmi, N. J. M., Ley, D., Mukerji, R., Muylaert de Araujo, M. S., Perez, R., Rose, S. K., & Singh, P. K. (2022). Chapter 18: Climate resilient development pathways. In H-O. Pörtner, D. C. Roberts, M. Tignor, E. S. Poloczanska, K. Mintenbeck, A. Alegría, M. Craig, S. Langsdorf, S. Löschke, V. Möller, A. Okem, & B. Rama (Eds.), Climate Change 2022: Impacts, Adaptation and Vulnerability. Contribution of Working Group II to the Sixth Assessment Report of the IPCC (pp. 2655-2807). Cambridge University Press. https://doi.org/10.1017/9781009325844.027
  198. SLA. (2024). Grønningen-Bispeparken Project Description. SLA Official Projects. https://sla.dk/en/projects/gronningen-bispeparken
  199. Smart City Sweden. (2025). Eco City Augustenborg – Creating an attractive and resilient district. https://smartcitysweden.com/best-practice/329/eco-city-augustenborg-creating-an-attractive-and-resilient-district/
  200. SOS4LIFE. (2020). Liberare il suolo: 20 casi studio per la resilienza urbana – Progetti e processi di adattamento negli interventi di rigenerazione. Regione Emilia-Romagna, Servizio Pianificazione Territoriale e Urbanistica, dei Trasporti e del Paesaggio. https://territorio.regione.emilia-romagna.it/urbanistica/pubblicazioni/sos4life_lineeguida_02_ita_lr.pdf
  201. Spinoni, J., Formetta, G., Mentaschi, L., Forzieri, G., & Feyen, L. (2020). Global warming and windstorm impacts in the EU. European Commission, Joint Research Centre.
  202. Stålhammar, S., & Brink, E. (2021). Exploring urban stormwater management through blue-green infrastructure in Sweden: The Augustenborg case. Urban Planning, 6(2), 189–203. DOI: 10.17645/up.v6i2.3953
  203. Synnefa, A., Santamouris, M., & Akbari, H. (2007). Estimating the effect of using cool coatings on energy loads and thermal comfort in residential buildings in various climatic conditions. Energy and Buildings, 39(11), 1167-1174. DOI: 10.1016/j.enbuild.2007.01.004
  204. Talamo, C., Paganin, G., & Bernardini, C. (2025). Gestire il cambiamento climatico: Strategie di adattamento per l’ambiente costruito (Open Access). FrancoAngeli. https://series.francoangeli.it/index.php/oa/catalog/view/1426/1557/7739
  205. The Rockefeller Foundation. (2013). 100 Resilient Cities – Pioneered by The Rockefeller Foundation. New York, NY: The Rockefeller Foundation. https://www.rockefellerfoundation.org/wp-content/uploads/d631b84b1efe41685a_3gm6b18ip1.pdf
  206. Tredje Natur. (2011). The first climate district. https://www.tredjenatur.dk/en/portfolio/the-first-climate-district/
  207. Tucci, F., Cecafosso, V., Caruso, A., & Turchetti, G. (2023). Adattamento ai cambiamenti climatici di architetture e città green: Assi strategici, indirizzi, azioni d’intervento per la resilienza dell’ambiente costruito. FrancoAngeli.
  208. Ugolini, L. (2024). La dimensione regionale e locale dell’adattamento ai cambiamenti climatici. Scienza in Rete. https://www.scienzainrete.it/articolo/dimensione-regionale-e-locale-delladattamento-ai-cambiamenti-climatici/lorenzo-ugolini/2024
  209. United Nation (2015). Transforming our world: The 2030 agenda for sustainable development (A/RES/70/1). United Nations. https://sdgs.un.org/2030agenda
  210. United Nation (2024). World Urbanization Prospects 2024. New York: UN Department of Economic and Social Affairs. https://population.un.org/wup/
  211. United Nations Disaster Risk Reduction (2023). Resilience – Terminology. United Nations. https://www.undrr.org/terminology/resilience
  212. United Nations Environment Programme – World Conservation Monitoring Centre and International Union for Conservation of Nature (2024). Protected Planet Report 2024: Tracking progress towards global biodiversity targets. Cambridge: United Nations Environment Programme World Conservation Monitoring Centre.
  213. United Nations Environment Programme (2022). Decision adopted by the Conference of the Parties to the Convention on Biological Diversity: Kunming-Montreal Global Biodiversity Framework. United Nations Environment Programme. https://www.cbd.int/gbf
  214. United Nations Framework Convention on Climate Change (2015). The Paris Agreement. Paris: UNFCCC. https://unfccc.int/sites/default/files/english_paris_agreement.pdf
  215. United Nations Human Settlements Programme (2011). Cities and climate change: Global report on human settlements 2011. Earthscan. https://unhabitat.org/cities-and-climate-change-global-report-on-human-settlements-2011
  216. United Nations Human Settlements Programme (2021). Urban Resilience Hub – What is Urban Resilience? United Nations Human Settlements Programme. https://resilientcitiesnetwork.org/what-is-urban-resilience/
  217. United Nations Human Settlements Programme (2022). World cities report 2022: Envisaging the future of cities. United Nations Human Settlements Programme. https://unhabitat.org/wcr
  218. United Nations Office for Disaster Risk Reduction (2023). Heatwave – Terminology definition. https://www.undrr.org/understanding-disaster-risk/terminology/hips/mh0047
  219. urbanNext. (2025). Zollhallen Plaza: A Climate Adaptation Tool. https://urbannext.net/zollhallen-plaza/
  220. Valente, R. (2020). Multi-scale environmental design experiences. In M. Losasso, M. T. Lucarelli, M. Rigillo, & R. Valente (Eds.), Adapting to the changing climate: Knowledge innovation for environmental design (pp. 263–266). Maggioli Editore.
  221. Valsir (2023). Drenaggio urbano sostenibile – Sistema Aquanest. https://www.valsir.it
  222. WERK Arkitekter. (2018). The climate adaptation project on Carl Nielsens Allé is well underway. https://werkarkitekter.dk/klimatilpasningsprojektet-paa-carl-nielsens-alle-er-godt-paa-vej/
  223. WERK Arkitekter. (2025). Carl Nielsens Allé. https://werkarkitekter.dk/projects/carl-nielsens-alle/
  224. World Bank. (2021). A Catalogue of Nature-Based Solutions for Urban Resilience. World Bank Group. https://openknowledge.worldbank.org/handle/10986/36507
  225. World Health Organization (2017). Urban green spaces: A brief for action. WHO Regional Office for Europe.
  226. World Health Organization Regional Office for Europe (2019). Environmental health inequalities in Europe: Second assessment report. Copenhagen: WHO Europe. https://www.who.int/europe/publications/i/item/9789289054157
  227. World Health Organization. (2024). Heat claims more than 175 000 lives annually in the WHO European Region, with numbers set to soar. https://www.who.int/europe/news/item/01-08-2024-statement--heat-claims-more-than-175-000-lives-annually-in-the-who-european-region--with-numbers-set-to-soar
  228. World Landscape Architecture (2020). Residential Complex “In Gärten”, Zurich, Switzerland.https://worldlandscapearchitect.com/residential-complex-in-garten-zurich-switzerland-neuland-architekturlandschaft/
  229. World Meteorological Organization & World Health Organization (2015). Heatwaves and health: Guidance on warning-system development. WMO & WHO. https://www.who.int/europe/publications/i/item/9789289054157
  230. WWF. (2018). Living planet report 2018: Aiming higher (M. Grooten & R. E. A. Almond, Eds.). World Wide Fund for Nature. https://www.worldwildlife.org/publications/living-planet-report-2018
  231. WWF. (2022). Deforestazione e cambiamento climatico: L’impatto dei consumi sui sistemi naturali. WWF Italia. https://www.wwf.it/cosa-facciamo/pubblicazioni/deforestazione-e-cambiamento-climatico/
  232. Zezza, A., & Tasciotti, L. (2010). Urban agriculture, poverty, and food security: Empirical evidence from a sample of developing countries. Food Policy, 35(4), 265–273. DOI: 10.1016/j.foodpol.2010.04.007
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Bibliographic Information

Book Title

Progetto tecnologico e ambientale per ecosistemi urbani adattivi

Authors

Giulio Hasanaj

Peer Reviewed

Number of Pages

192

Publication Year

2025

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© 2025 Author(s)

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CC BY-SA 4.0

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Firenze University Press

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10.36253/979-12-215-0914-4

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979-12-215-0913-7

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Ricerche. Architettura, Pianificazione, Paesaggio, Design

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2975-0342

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2975-0350

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