The increasing frequency of climate change-related extreme events observed in recent decades highlights the need to identify new paradigms for the sustainable transformation of the threatened territories, as also recognized in the 17 goals of the Global Agenda for Sustainable Development 2030. From the urban planning perspective, the achievement of the latter can only be pursued through the overcoming of traditionally sectoral approaches, in favour of an integrated one to urban complexity, according to what is called “climate-proof planning”. Starting from the analysis of the reference context, the contribution focuses on the need to adopt an “amphibious” approach to urban regeneration actions in flood-prone areas, proposing the case study of Isola Sacra, Fiumicino (Italy). This contribution is part of the ongoing research “Urban regeneration strategies for climate-proof territories. Tools and methods for the assessment of vulnerability and for the identification of resilience tactics in coastal urban areas subject to sea level rise” (Scientific coordinator Prof. Arch. Carmen Mariano) carried out by the authors at the PDTA Department, Sapienza University of Rome in collaboration with the Climate and Impact Modelling Lab of ENEA, funded by Sapienza University of Rome within the University funds for scientific research 2020.

Climate-Proof Planning. Water as Engine of Urban Regeneration in the Ecological Transition Era / Mariano, Carmela; Marino, Marsia. - (2022), pp. 2692-2700.

Climate-Proof Planning. Water as Engine of Urban Regeneration in the Ecological Transition Era

carmela mariano
;
marsia marino
2022

Abstract

The increasing frequency of climate change-related extreme events observed in recent decades highlights the need to identify new paradigms for the sustainable transformation of the threatened territories, as also recognized in the 17 goals of the Global Agenda for Sustainable Development 2030. From the urban planning perspective, the achievement of the latter can only be pursued through the overcoming of traditionally sectoral approaches, in favour of an integrated one to urban complexity, according to what is called “climate-proof planning”. Starting from the analysis of the reference context, the contribution focuses on the need to adopt an “amphibious” approach to urban regeneration actions in flood-prone areas, proposing the case study of Isola Sacra, Fiumicino (Italy). This contribution is part of the ongoing research “Urban regeneration strategies for climate-proof territories. Tools and methods for the assessment of vulnerability and for the identification of resilience tactics in coastal urban areas subject to sea level rise” (Scientific coordinator Prof. Arch. Carmen Mariano) carried out by the authors at the PDTA Department, Sapienza University of Rome in collaboration with the Climate and Impact Modelling Lab of ENEA, funded by Sapienza University of Rome within the University funds for scientific research 2020.
2022
New Metropolitan Perspectives Post COVID Dynamics: Green and Digital Transition, between Metropolitan and Return to Villages Perspectives
978-3-031-06824-9
climate-proof planning; urban regeneration strategies; water landscape
02 Pubblicazione su volume::02a Capitolo o Articolo
Climate-Proof Planning. Water as Engine of Urban Regeneration in the Ecological Transition Era / Mariano, Carmela; Marino, Marsia. - (2022), pp. 2692-2700.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1652475
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