09338oam 2200757I 450 991078525420332120230322030156.01-136-93495-21-136-93496-01-282-88275-997866128827530-203-84653-210.4324/9780203846537(CKB)2670000000047973(EBL)574504(SSID)ssj0000442663(PQKBManifestationID)12167689(PQKBTitleCode)TC0000442663(PQKBWorkID)10447553(PQKB)10265892(SSID)ssj0000428593(PQKBManifestationID)12146697(PQKBTitleCode)TC0000428593(PQKBWorkID)10424162(PQKB)11251363(MiAaPQ)EBC574504(Au-PeEL)EBL574504(CaPaEBR)ebr10422063(CaONFJC)MIL288275(EXLCZ)99267000000004797320180706d2010 uy 0engurbn#|||a|a||txtrdacontentcrdamediacrrdacarrierSpatial planning and climate change /Elizabeth Wilson and Jake PiperMilton Park, Abingdon, Oxon ;New York :Routledge,2010.1 online resource (480 pages) illustrations, mapsThe natural and built enviornment series0-415-49591-1 (OCoLC)671811312 0-415-49590-3 Includes bibliographical references and index.<em>pt. IIntroduction </em>--1.Introduction: spatial planning, climate change and sustainable development --1.1.Introduction --1.2.Urgency of response to climate change --1.3.Role of Spatial Planning --1.4.Implications for sustainable development --1.5.Conclusions --2.Climate change mitigation and adaptation: impacts and opportunities --2.1.Introduction and definitions --2.2.Impacts and opportunities of climate change --2.3.case for mitigation and adaptation --2.4.role of spatial planning in the synergy between mitigation and adaptation --2.5.Integrating mitigation and adaptation (approaches and tools for spatial planning) --2.6.Conclusions: mitigation and adaptation working together --3.International, European and national policy frameworks --3.1.Introduction --3.2.United Nations Framework Convention on Climate Change --3.3.European climate change action --3.4.National policy frameworks --3.5.Policy options for implementation --3.6.Conclusions --<em>pt. IIPerspectives on spatial planning and climate change </em>--4.Discourses of climate change and spatial planning --4.1.Introduction --4.2.Discourse analysis --4.3.United Kingdom --4.4.Netherlands --4.5.Conclusions --5.Multi-scalar spatial planning for climate change --5.1.Introduction --5.2.Multi-level governance and appeals to the global scale --5.3.Mitigation and adaptation: global and local? --5.4.Multi-scale governance networks --5.5.Implications for spatial planning --5.6.Conclusions --6.Just transitions: horizons, timescales and equity --6.1.Introduction --6.2.Futures thinking in spatial planning --6.3.Sustainable development and planning for future generations --6.4.Planning, climate change and the future --6.5.Climate change and intra-generational equity --6.6.Futures thinking: socio-economic and climate change scenarios --6.7.Socio-economic scenarios in the Netherlands --6.8.Other tools for futures thinking in spatial planning --6.9.Conclusions --7.Environmental impact assessment for climate change in spatial planning --7.1.Introduction --7.2.Environmental impact assessment processes --7.3.Environmental impact assessment and climate change --7.4.Specific guidance on climate change within EIA --7.5.Integrating mitigation and adaptation in EIA --7.6.Case studies: SEA and climate change --7.6.1.Case study 1: Randstad 2040 --7.6.2.Case study 2: UK offshore energy SEA --7.6.3.Case study 3: SEA of Thames Estuary 2100 --7.6.4.Strengths and weaknesses in SEA case studies --7.7.Risk assessment and uncertainty in EIA --7.8.New regulatory requirements for addressing climate change in EIA --7.9.Conclusions --<em>pt. IIISpatial planning in practice </em> --8.Strategic planning for low-carbon and resilient development patterns --8.1.Introduction --8.2.Patterns of development --8.3.Strategic planning, transport and climate change mitigation in the UK --8.3.1.Transport and greenhouse gas emissions: trends and targets --8.3.2.National and regional policies for strategic location of development and transport --8.3.3.Spatial planning policies for transport demand management and travel behaviour --8.3.4.National and regional targets for low carbon transport --8.4.Strategic planning and climate change adaptation in the UK --8.5.Climate change mitigation and adaptation at the regional level: the Yorkshire and Humber Plan --8.6.Eco-towns --8.7.Learning from Europe --8.8.Conclusions --9.Climate change and the built environment --9.1.Introduction --9.2.built environment and infrastructure: definitions --9.3.Reducing emissions from the built environment --9.4.Reducing emissions from the built environment: the UK --9.5.Reducing emissions from the built environment: the Netherlands --9.6.Climate change adaptation in the built environment --9.7.Climate change adaptation in the built environment: the UK --9.8.Climate change adaptation in the built environment: The Netherlands --9.9.Bringing adaptation and mitigation together: green infrastructure --9.10.Conclusions: spatial planning for mitigation and adaptation --10.Planning for water resources under climate change --10.1.Introduction --10.2.Water resources: use and climate change impacts --10.3.Integrating planning for land and water: water resources --10.4.Tools for policy integration: water resources --10.5.Conclusions: water resources --11.Flood risk, and marine and coastal areas: planning for climate change --11.1.Introduction --11.2.Flood risk and climate change --11.3.Integrating spatial planning and flood-risk planning --11.4.Tools for integration of flood risk into spatial planning --11.5.Conclusions: flood risk --11.6.Marine and coastal spatial planning --11.7.Conclusions --12.Planning for biodiversity under climate change --12.1.Introduction --12.2.Pressures upon biodiversity --12.3.International biodiversity protection: institutions and status --12.4.National level: UK biodiversity institutions and policy framework --12.5.Spatial planning links to biodiversity --12.6.Concepts and principles for future biodiversity protection --12.7.Spatial planning, biodiversity and climate change: barriers and constraints --12.8.Conclusions - implications for biodiversity policy: conservation and enhancement --<em>pt. IVProspects </em>--13.Climate change learning, knowledge and communication amongst spatial planning communities --13.1.Introduction --13.2.Institutional and social learning --13.3.Networks and learning --13.4.Climate change knowledge amongst planning communities --13.5.Community engagement and visualization --13.6.Conclusions --14.Integrating mitigation and adaptation for sustainable development --14.1.Introduction --14.2.Benefits of integration of mitigation and adaptation --14.3.Methods for integration --14.4.Understanding the development process --14.5.Prospects.Spatial planning has a vital role to play in the move to a low carbon energy future and in adapting to climate change. To do this, spatial planning must develop and implement new approaches. Elizabeth Wilson and Jake Piper explore a wide range of issues in this comprehensive book on the relationship between our changing climate and spatial planning, and suggest ways of addressing the challenges by taking a longer-sighted approach to our preparation for the future. This text includes:an overview of what we know already about future climate change and its impacts.The authors take an evidence-based look at this hugely important topic, providing a well-illustrated text for spatial planning professionals, politicians and the interested public, as well as a useful reference for postgraduate planning, geography, urban studies, urban design and environmental studies students. --Book Jacket.Natural and Built Environment SeriesRegional planningSpatial behaviorClimatic changesRegional planning.Spatial behavior.Climatic changes.307.1/2Wilson Elizabeth.419152Piper Jake1555112MiAaPQMiAaPQMiAaPQBOOK9910785254203321Spatial planning and climate change3816763UNINA