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Regenerative Territories : Dimensions of Circularity for Healthy Metabolisms.

Bibliographic Details
Main Author: Amenta, Libera.
Other Authors: Russo, Michelangelo., van Timmeren, Arjan.
Format: eBook
Language:English
Published: Cham : Springer International Publishing AG, 2022.
Edition:1st ed.
Series:GeoJournal Library
Subjects:
Electronic books.
Online Access:Click to View
Table of Contents:
  • Intro
  • Introduction to the Volume
  • Contents
  • Editors and Contributors
  • 1 Dimensions of Circularity for Healthy Metabolisms and Spaces
  • 1.1 Introduction
  • 1.2 The Circular Economy Paradigm Shift Requires a Socio-Ecological Perspective, Looking Beyond Boundaries
  • 1.3 Circular Economy Is Based on Systems Thinking and Territorial Metabolism
  • 1.4 A Circular Economy Calls for a Renewed Approach to the Public Domain and Stakeholder Involvement
  • 1.5 Amplifying the Definition of Circular Economy with the Inclusion of Wastescapes
  • 1.6 Planning the Circular Economy as an Open Collaborative System
  • References
  • Part I New Definitions: Amplifying the Perspective of Circular Economy
  • 2 Territorialising Circularity
  • 2.1 Introduction
  • 2.2 Framing the Territorial Dimension in the CE Debate
  • 2.3 The Necessity of Representation: Towards Spatialising and Contextualising Circularity
  • 2.4 Resource Cartographies: The AMA Case-Study
  • 2.4.1 Mapping the Flow
  • 2.4.2 Justaxposing Flow and Infrastructural Network
  • 2.4.3 Unfolding Stock and Flow Relationship
  • 2.4.4 A Circular Stock and Flow Relationship: Defining Resource Shed
  • 2.5 Reflection and Conclusion
  • Bibliography
  • 3 Shifting Risk into Productivity: Inclusive and Regenerative Approaches Within Compromised Contexts in Peri-Urban Areas
  • 3.1 Overlapping Risks in Peri-Urban Areas
  • 3.1.1 Territorial Risks and Resources in Campania
  • 3.2 Land Productivity: From Exploitation Toward Regeneration
  • 3.3 Adaptive Remediation Approach for Peri-Urbanity in Transition
  • 3.4 The Agency of Waste
  • 3.5 Conclusions
  • References
  • 4 The Circular Metabolic Urban Landscape: A Systematic Review of Literature
  • 4.1 Introduction: The Transition Toward Circular Metabolic Urban Landscapes
  • 4.2 Methodology and Research Design.
  • 4.3 Results: Themes and Challenges of UM Studies for Circular Cities
  • 4.4 Discussion and Conclusions
  • References
  • 5 Urban Manufacturing for Circularity: Three Pathways to Move from Linear to Circular Cities
  • 5.1 Circular Economy in Cities in the Making
  • 5.2 Three Readings of Urban Conditions
  • 5.2.1 Circularity and Technology
  • 5.2.2 Urban Integration
  • 5.2.3 People, Networks and Policy
  • 5.3 Developing an Integral Approach Through Participation and Collaboration
  • 5.4 Discussion and Reflection
  • References
  • Part II The Spatial Scope of Circularity
  • 6 Evolving Relations of Landscape, Infrastructure and Urbanization Toward Circularity
  • 6.1 Introduction
  • 6.2 Flanders: Embracing the Circular Economy
  • 6.3 Campine: Past and Future (Water) Cycles
  • 6.4 Antwerp: Waste and Wastelands
  • 6.5 Rural Vietnam: Culture, Economy and Ecology Tied to Locational Assets
  • 6.6 Urbanizing Vietnam: Torn Between Two Worlds
  • 6.7 Toward a Twenty-First Century Circularity
  • References
  • 7 Circular City: Urban and Territorial Perspectives
  • 7.1 Introduction
  • 7.2 Approaches: Circular Economy and Urban Metabolism
  • 7.3 Urban Areas and Urban Flows
  • 7.4 Circular City
  • 7.5 Conclusion
  • References
  • 8 New Urbanization Phenomena and Potential Landscapes: Rhizomatic Grids and Asymmetrical Clusters
  • 8.1 Foreword: Territories of the Circular Economy
  • 8.2 Status Quo: Analogies and Differences
  • 8.3 The Fringe: Two Models
  • 8.4 New Greenbelt Scenarios
  • 8.5 Spatial Models: "Asymmetrical Cluster" and "Rhizomatic Grid"
  • 8.6 Conclusions: Potential Hypercontextual Landscapes
  • References
  • 9 From Wastescapes Towards Regenerative Territories. A Structural Approach for Achieving Circularity
  • 9.1 Introduction: Circular Metabolisms and the Regeneration of Wastescapes.
  • 9.2 Peri-Urban Living Labs (PULLs) as a Collaborative Methodology for the Sustainable Regeneration of Wastescapes
  • 9.3 REPAiR Peri-Urban Living Lab (PULL) Methodology and Wastescapes Characterization in the Cases of Amsterdam and Naples
  • 9.4 Discussion and Conclusions: How to Regenerate Wastescapes in Peri-Urban Areas
  • References
  • 10 Towards Circular Port-City Territories
  • 10.1 Introduction: Rotterdam Towards a Twofold Objective
  • 10.2 Approach: Path Dependence and its Implications
  • 10.3 A Historical Overview
  • 10.4 Spatial Understanding and Planning Interests
  • 10.5 Stadshavens Strategy and the Makers District (M4H)
  • 10.6 Conclusion
  • References
  • Part III Methodology and Representation
  • 11 Eliciting Information for Developing a Circular Economy in the Amsterdam Metropolitan Area
  • 11.1 Introduction
  • 11.2 Circular Economy, Spatial Planning and Cartography
  • 11.2.1 Circular Economy and Spatial Planning
  • 11.2.2 Interactive Cartography for Spatial Planning
  • 11.2.3 Representing Waste Management Information
  • 11.3 Presentation of Information for Co-Developing CE Economy Strategies
  • 11.3.1 Geodesign Decision Support Environment
  • 11.3.2 Presenting Information on Waste Flows in Spatial Planning
  • 11.3.3 Presenting Circular Economy Strategies
  • 11.3.4 Presenting Flow Assessment of Circular Economy Strategies
  • 11.4 Conclusions
  • References
  • 12 Collaborative Decision-Making Processes for Local Innovation: The CoULL Methodology in Living Labs Approach
  • 12.1 Introduction
  • 12.2 The Living Lab Approach: A Transformative Process
  • 12.3 The CoULL Methodology
  • 12.4 The CoULL Implementation in Different Decision Contexts
  • 12.5 Conclusions
  • References
  • 13 Urban Metabolism Evaluation Methods: Life Cycle Assessment and Territorial Regeneration.
  • 13.1 Introduction: The City as an Urban Ecosystem and the Concept of Life Cycle
  • 13.2 Environmental Assessment: Agendas, Methods and Tools
  • 13.3 Cities of Flows: The Concept of UM and Its Evaluation Methods
  • 13.4 LCA and Territorial Regeneration: Is There any Correlation?
  • 13.5 Conclusions
  • References
  • Part IV Sustainable Strategies and Solutions for Circular and Healthy Metabolisms
  • 14 Planning Wastescapes Through Collaborative Processes
  • 14.1 Introduction: In the Public Field
  • 14.2 Method and Approach: The Enabling State-Inequalities and Roles
  • 14.3 Experiments
  • 14.3.1 Wastescape #1: The Collaborative Definition of Uses of a Public Facility on a Metropolitan Scale
  • 14.3.2 Wastescape #2: Co-Creating Public Services in Peri-Urban Areas
  • 14.4 Discussion and Conclusions
  • References
  • 15 Manufactured in the Peri-Urban: Regenerative Strategies for Critical Lands
  • 15.1 Productive Peri-Urban
  • 15.2 Productive/Urban: Caserta Case Study
  • 15.3 The Path of P.U.R.E. Research
  • 15.4 First Steps, Expected Results and Future Research Paths
  • References
  • 16 Urban Regeneration: An "Incremental Circularity" Perspective
  • 16.1 Circular Economy Vision of Urban Development
  • 16.2 Urban Metabolism and Urban Regeneration
  • 16.3 Incremental Circularity
  • 16.4 Case studies
  • 16.4.1 Ferrara: Pioneer Communities for Regeneration
  • 16.4.2 Novara: Triggering the Regeneration Starting from Commons
  • 16.5 Conclusions
  • 16.5.1 There Is No Circular Economy in Cities Without Social Component
  • 16.5.2 Temporary Use of Spaces and Collective Uses as Trigger for Long-Term Transformation
  • 16.5.3 The Outdoor Spaces as a New Urban Resource
  • References
  • 17 Reloading Landscapes: Democratic and Autotrophic Landscape of Taranto
  • 17.1 Introduction
  • 17.2 Democratic and Autotrophic Landscapes: Linking Open-Loop System Circularity.
  • 17.3 Reloading Landscapes: A Correlated Scenario for the Case of Taranto
  • 17.4 Conclusions
  • References
  • 18 Hybridizing Artifice and Nature: Designing New Soils Through the Eco-Systemic Approach
  • 18.1 A Paradigm Shift
  • 18.2 Recycling Construction Debris for Producing New Anthropogenic Soils
  • 18.3 Collaborative Processes for Designing Anthropogenic Soils
  • 18.4 Conclusion
  • References
  • 19 Towards Regenerative Wasted Landscapes: Index of Attractiveness to Evaluate the Wasted Landscapes of Road Infrastructure
  • 19.1 Introduction
  • 19.2 The Wasted Land of Roads as a Resource
  • 19.3 A Methodological Proposal for a Regenerative Process
  • 19.3.1 Selection of Case Studies
  • 19.3.2 Presentation of Centrality Index and Results
  • 19.4 Discussion and Future Perspectives
  • Bibliography
  • Afterword
  • References.

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