References

1. Policies & Plans

1. Dolan, T., 2018. Briefing: A systemic framework for infrastructure need assessment. Proceedings of the Institution of Civil Engineers – Smart Infrastructure and Construction, 171(2), pp. 45-53.

2. UNEP, 2020, International Good Practice Principles for Sustainable Infrastructure, Nairobi: United Nations Environment Programme.

3. ICE, 2020. Enabling Better Infrastructure: 12 guiding principles for prioritising and planning infrastructure, London: Institution of Civil Engineers.

4. Beckford, J., 2021. The Intelligent Nation: How to Organise a Country. 1st ed. Abington-on-Thames: Routledge.

5. Vaughan-Morris, G., 2012. Strategic Infrastructure Steps to Prioritize and Deliver Infrastructure Effectively and Efficiently With Appendices, Cologny: World Economic Forum & PwC.

6. SSDN, 2015. Partnerships for Resilience and Empowered Planning (PREP), s.l.: Southeast Sustainabiltiy Directors Network.

7. NIST, 2020. Community Resilience Planning Guide for Buildings and Infrastructure Systems, Washington, DC: National Institute of Standards and Technology.

8. Thacker, S. et al., 2019. Infrastructure for sustainable development. Nature Sustainability, Volume 2, pp. 234-331.

9. UNFCCC, 2015. Adoption of the Paris Agreement. Paris, s.n

10. CEN, 2019. EN ISO 14090:2019 Adaptation to climate change – Principles, requirements and guidelines (ISO 14090:2019), London: BSI Standards Limited.

11. Jakku, E. & Lynam, T., 2010. What is adaptive capacity?, Canberra: South East Queensland Climate Adaptation Research initiative & CSIRO.

12. BSI, 2021. BS EN ISO 14091:2021 Adaptation to climate change – Guidelines on vulnerability, impacts and risk assessment, London: BSI Standards Limited.

13. AECOM, 2017. C40 Infrastructure Interdependencies + Climate Risks Report, London: C40 Cities.

14. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity, Washington DC: World Bank Group.

15. Bostick, T., Connelly, E., Lambert, J. & Linkow, I., 2018. Resilience science, policy and investment for civil infrastructure. Reliability Engineering and System Safety, Volume 175, pp. 19-23.

16. Graham, H. et al., 2019. Willingness to pay for policies to reduce future deaths from climate change: evidence from a British survey. Public Health, Volume 174, pp. 110-117.

17. Anglian Water, 2018. 12G. Anglian Water's PR19 Societal Valuation Programme, Huntington: Anglian Water.

18. ISI, 2018. Envision: Sustainable Infrastructure Framework Guidance Manual, Washington, DC: Institute for Sustainable Infrastructure.

19. Few, R., Brown, K. & Tompkins, E., 2007. Public participation and climate change adaptation: avoiding the illusion of inclusion. Climate Policy, Volume 7.

20. Gawler, S. & Tiwari, S., 2014. ICLEI ACCCRN Process - Building Urban Climate Change Resilience: A Toolkit for Local Governments, Bonn: ICLEI - Local Governments for Sustainability, South Asia.

21. World Bank, 2021. Inclusive Resilience: Inclusion Matters for Resilience in South Asia, Washington DC: International Bank for Reconstruction and Development / The World Bank.

22. Göpfert, C., Wamsler, C. & Lang, W., 2019. Institutionalizing climate change mitigation and adaptation through city advisory committees: Lessons learned and policy futures. City and Environment Interactions, Volume 1.

23. OECD, 2018. Climate-resilient Infrastructure, Paris: Organisation for Economic Co-operation and Development.

24. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2020. Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

25. Vallejo, L. & Mullan, M., 2017. Climate-resilient infrastructure: Getting the policies right, Paris: Organisation for Economic Co-operation and Development.

26. UNEP, 2020. Good Practice Guidance Framework for Sustainable Infrastructure, Nairobi: United Nations Environment Programme.

27. Climate Adapt, 2021. Transnational regions. (Online) Available at: https://climate-adapt.eea.europa.eu/countries-regions/transnational-regions (Accessed 6 October 2021).

28. Russel, D. et al., 2020. Policy Coordination for National Climate Change Adaptation in Europe: All Process, but Little Power. Sustainability, Volume 12.

29. Resilient Cities Network, 2021. The world's leading urban resilience network. (Online) Available at: https://resilientcitiesnetwork.org/network/ (Accessed 6 October 2021).

30. Martin, M., 2019. Capacity Building for Climate Resilience in Seychelles. Seychelles Research Journal, 1(2).

31. Shakya, C. et al., 2018. Building institutional capacity for enhancing resilience to climate change: An operational framework and insights from practice, Washington, D.C.: Action on Climate Today Learning Paper.

32. OECD, 2021. Strengthening Climate Resilience: Guidance for Government and Development Co-operation, Paris: OECD Publishing.

33. InfraCompass, 2021. What Is This Tool?. (Online) Available at: https://infracompass.gihub.org/ (Accessed 6 October 2021).

34. climatelinks, 2021. Global Climate Change Institutional Capacity Assessment. (Online) Available at: https://www.climatelinks.org/resources/global-climate-change-institutional-capacity-assessment (Accessed 6 October 2021).

35. ADB, 2021. A System-Wide Approach for Insurance Resilience, Manila & Rotterdam: Asian Development Bank (ADB) and Global Center on Adaptation (GCA).

36. UNEP, 2021. Adaptation Gap Report 2020, Geneva: United Nations Environment Programme.

37. Taibi, F.-Z., Konrad, S. & vn Kursk, O. B., 2020. Pocket Guide to NDCs under the UNFCCC, Nairobi & Copenhagen: UNEP & UNEP DTU Partnership.

38. UNFCCC, 2015 Synthesis report on the aggregate effect of the intended nationally determined contributions, Paris: United Nations.

39. Green Climate Fund, 2021. Green Climate Fund. (Online) Available at: https://www.greenclimate.fund/ (Accessed 6 October 2021).

40. UNEP, 2021. Adaptation Gap Report 2020, Geneva: United Nations Environment Programme

41. Ebinger, J. & Vandycke, N., 2015. Moving Toward Climate-Resilient Transport: The World Bank’s Experience from Building Adaptation into Programs, Washington, D.C.: The World Bank Group.

42. PIANC, 2020. PIANC Report No 178 - Climate Change Adaptation Planning for Ports and Inland Waterways, Brussels: The World Association for Waterborne Transport Infrastructure.

43. UN-Water, 2019. Climate Change and Water: UN-Water Policy Brief, Geneva: UN-Water.

44. Kwasinski, A., Trainor, J., Wolshon, B. & Lavelle, F., 2016. A Conceptual Framework for Assessing Resilience at the Community Scale, Gaithersburg: National Institute of Standards and Technology.

45. UNDP, 2010. Paving the Way for Climate-Resilient Infrastructure, San Salvador: United Nations Development Programme.

46. O'Connell, D., Walker, B., Abel, N. & Grigg, N., 2015. The Resilience, Adaptation and Transformation Assessment Framework: from theory to application, Canberra: CSIRO.

47. IHA, 2019. Hydropower Sector Climate Resilience Guide, London: International Hydropower Association.

48. Mendoza, G. et al., 2018. Climate Risk Informed Decision Analysis (CRIDA): Collaborative Water Resource Planning for an Uncertain Future, Paris: UN Educational, Scientific and Cultural Organization.

49. NIST, 2020. Community Resilience Planning Guide for Buildings and Infrastructure Systems, Washington, DC: National Institute of Standards and Technology.

50. Hill, A. C. et al., 2019. Ready for Tomorrow: Seven Strategies for Climate-Resilient Infrastructure, Stanford: Hoover Institution.

51. Schwab, J. et al., 1998. Chapter 5: A Planner’s Tool Kit. In: Planning for Post-Disaster Recovery and Reconstruction. Chicago: American Planning Association, pp. 113-167.

52. HKS, 2008. Before Disaster Hits: Top Items a Local Government Needs in Place to Launch Effective Community Recovery, Cambridge: Harvard Kennedy School of Government.

53. FEMA, 2017. Pre-Disaster Recovery Planning Guide for Local Governments, Washington, D.C.: Federal Emergency Management Agency.

54. Stenek, V. & Amado, J.-C., 2013. Enabling Environment for Private Sector Adaptation, Washington, DC: International Finance Corporation.

55. Vallejo, L. & Mullan, M., 2017. Climate-resilient infrastructure: Getting the policies right, Paris: Organisation for Economic Co-operation and Development.

56. OECD, 2018. Climate-resilient Infrastructure, Paris: Organisation for Economic Co-operation and Development.

57. TDFC, 2021. Task Force on Climate-related Financial Disclosures. (Online) Available at: https://www.fsb-tcfd.org/ (Accessed 6 October 2021)

58. Delta Alliance, 2021. Global Centre of Excellence on Climate Adaptation (GCECA). Online Available at: http://www.delta-alliance.org/GCECA Last Accessed 6 October 2021.

59. OECD, 2018. Climate-resilient Infrastructure, Paris: Organisation for Economic Co-operation and Development.

60. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity, Washington DC: World Bank Group.2

61. Stenek, V. & Amado, J.-C., 2013. Enabling Environment for Private Sector Adaptation, Washington, DC: International Finance Corporation.

62. European Commission, 2013. Guidance on Integrating Climate Change and Biodiversity into Environmental Impact Assessment, Brussels: European Union.

63. IDB, 2018. What Is Sustainable Infrastructure? A Framework to Guide Sustainability Across the Project Cycle, Washington, DC: Inter-American Development Bank.

64. Weerasinghe, S. et al., 2014. Planned Relocation, Disasters and Climate Change: Consolidating Good Practices and Preparing for the Future, Sanremo: The UN Refugee Agency.

65. DIIS, 2017. Climate change and Planned Relocation: How Climate Resettlement Can Work for Communities, Copenhagen: Danish Institute for International Studies.

66. UNHCR, 2017. A Toolbox: Planning Relocations to Protect People from Disasters and Environmental Change, Geneva: United Nations High Commissioner for Refugees.

67. World Bank, 2015. Building Regulation for Resilience, Washington, DC: The World Bank.

68. FEMA, 2020. Protecting Communities and Saving Money, Washington, DC: Federal Emergency Management Agency.

69. ICC, 2021. Codes Around the World: The Use of Climate Data and Assessment of Extreme Weather Event Risks in Building Codes Around the World: Survey Findings from the Global Resiliency Dialogue, Washington, DC: International Code Council.

70. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity, Washington DC: World Bank Group.

71. Stenek, V. & Amado, J.-C., 2013. Enabling Environment for Private Sector Adaptation, Washington, DC: International Finance Corporation

72. ICC, 2021. Codes Around the World: The Use of Climate Data and Assessment of Extreme Weather Event Risks in Building Codes Around the World: Survey Findings from the Global Resiliency Dialogue, Washington, DC: International Code Council.

73. SCC, 2021. Standards in Action: Building a Climate-Resilient Future, Ottawa: Standards Council of Canada.

74. ICC, 2019. Resilience Contributions of the International Building Code, Washington, D.C.: International Code Council.

75. PACE Nation, 2021. What is PACE Financing?. (Online) Available at: https://www.pacenation.org/what-is-pace/ (Accessed 6 October 2021).

76. ICC, 2019. Resilience Contributions of the International Building Code, Washington, D.C.: International Code Council.

77. Dora, J., 2018. Climate change: Standards, and their role in improving the climate resilience of infrastructure investments, London: European Bank for Reconstruction and Development.

78. ISO, 2020. How to Use ISO 14090 to Support Adaptation to Climate Change in an ISO 14001 Environmental Management System, Geneva: International Organization for Standardization.

79. Keele, S. & Coenen, L., 2019. The role of public policy in critical infrastructure resilience, Melbourne and London: Universtiy of Melbourne and Resilience Shift.

80. Antofie, T. E., Doherty, B. & Marin-Ferrer, M., 2018. Mapping of risk web-platforms and risk data: collection of good practices, Luxembourg: European Union.

81. Wilkinson, M. D. et al., 2016. The FAIR Guiding Principles for scientific data management and stewardship. Sci. Data, 3(160018).

82. UNDRR, 2019. Global Assessment Report on Disaster Risk Reduction, Geneva: United Nations Office for Disaster Risk Reduction.

83. ADB, 2017. Natural Hazard Data: A practical Guide, Manila: Asian Development Bank.

84. Antofie, T. E., Doherty, B. & Marin-Ferrer, M., 2018. Mapping of risk web-platforms and risk data: collection of good practices, Luxembourg: European Union.

85. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity, Washington DC: World Bank Group.

86. GFDRR, 2021. The GFDRR ThinkHazard! tool. Online Available at: https://www.gfdrr.org/en/the-gfdrr-thinkhazard-tool Last Accessed 6 October 2021.

87. FEMA, 2021. Hazus. Online Available at: FEMA, 2021. Hazus. Online Available at: https://www.fema.gov/flood-maps/products-tools/hazus?web=1&wdLOR=cE6FB555C-56FD-4426-A9EB-3CA1EFD19F2C Accessed 6 October 2021.

88.

89. World Bank, 2014. Open Data for Resilience Initiative: Field Guide, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

90. UNDP, 2010. Paving the Way for Climate-Resilient Infrastructure, San Salvador: United Nations Development Programme.

91. UNDRR, 2020. Hazard Definition & Classification Review, Geneva: UN Office for Disaster Risk Reduction.

92. FEMA, 2019. HAzus Comprehensive Data Management System (CDMS) User Guidance, Washington, DC: FEMA.

93. World Bank Group, 2021

94. CEN & CENELEC, 2016. CEN-CENELEC Guide 32: Guide for addressing climate change adaptation in standards, Brussels: European Committee for Standardization & European Committee for Electrotechnical Standardization.

95. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2020. Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

96. Guthrie, G., 2019. Real options analysis of climate-change adaptation: Investment flexibility and extreme weather events, Wellington: University of Wellington.

97. IHA, 2019. Hydropower Sector Climate Resilience Guide, London: International Hydropower Association.

98. Arup, 2017. Future Cities: Building infrastructure resilience, London: Lloyd’s of London & Arup.

99. ISI, 2018. Envision: Sustainable Infrastructure Framework Guidance Manual, Washington, DC: Institute for Sustainable Infrastructure.

100. Dolan, T., Walsh, C., Bouch, C. & Carhart, N., 2016. A conceptual approach to strategic performance indicators. Infrastructure Asset Management.

101. IDB, 2020. MDB Infrastructure Cooperation Platform: A Common Set of Aligned Sustainable Infrastructure Indicators (SII), Washington, D.C.: Inter-American Development Bank Climate Change Division.

102. World Bank Group, 2021. Resilience Rating System : A Methodology for Building and Tracking Resilience to Climate Change, Washinton, DC: World Bank.

2. Prioritisation

1. CEN & CENELEC, 2016. CEN-CENELEC Guide 32: Guide for addressing climate change adaptation in standards, Brussels: European Committee for Standardization & European Committee for Electrotechnical Standardization.

2. Infrastructure South Wales, 2019. Guidelines for Resilience in Infrastructure Planning: Natural Hazards, Sydney: NSW Government Treasury.

3. UNDP, 2010. Paving the Way for Climate-Resilient Infrastructure, San Salvador: United Nations Development Programme.

4. Infrastructure South Wales, 2019. Guidelines for Resilience in Infrastructure Planning: Natural Hazards, Sydney: NSW Government Treasury.

5. National Research Council, 2010. Informing an Effective Response to Climate Change, Washington, DC: The National Academies Press.

6. Hill, A. C. et al., 2019. Ready for Tomorrow: Seven Strategies for Climate-Resilient Infrastructure, Stanford: Hoover Institution.

7. Vallejo, L. & Mullan, M., 2017. Climate-resilient infrastructure: Getting the policies right, Paris: Organisation for Economic Co-operation and Development.

8. CoastAdapt, 2017. What is a pathways approach to adaptation?. (Online) Available at https://coastadapt.com.au/pathways-approach (Accessed 15 September 2021).

9. World Bank, 2020. The Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

10. UNDP, 2010. Paving the Way for Climate-Resilient Infrastructure, San Salvador: United Nations Development Programme.

11. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity, Washington DC: World Bank Group.

12. PIANC, 2020. PIANC Report No 178 - Climate Change Adaptation Planning for Ports and Inland Waterways, Brussels: The World Association for Waterborne Transport Infrastructure.

13. Watkiss, P. & Dynzynski, J., 2013. Decision Support Methods for Climate Change Adaptation: Robust Decision Making. Briefing Note Series: Summary of Methods and Case Study Examples from the MEDIATION Project, Brussels: European Commission.

14. Gawler, S. & Tiwari, S., 2014. ICLEI ACCCRN Process - Building Urban Climate Change Resilience: A Toolkit for Local Governments, Bonn: ICLEI - Local Governments for Sustainability, South Asia.

15. Infrastructure South Wales, 2019. Guidelines for Resilience in Infrastructure Planning: Natural Hazards, Sydney: NSW Government Treasury.

16. van Westen, C. & Greiving, S., 2017. Chapter 2: Multi-hazard risk assessment and decision making. In: N. R. Dalezios, ed. Environmental Hazards Methodologies for Risk Assessment. London: The International Water Association, pp. 31-94.

17. van Westen, C. & Greiving, S., 2017. Chapter 2: Multi-hazard risk assessment and decision making. In: N. R. Dalezios, ed. Environmental Hazards Methodologies for Risk Assessment. London: The International Water Association, pp. 31-94.

18. United Nations, 2021. Managing Infrastructure Assets for Sustainable Development: A handbook for local and national governments, New York: United Nations.

19. UNEP, 2020. International Good Practice Principles for Sutainable Infrastructure, Nairobi: United Nations Environment Programme.

20. National Research Council, 2010

21. National Research Council, 2010. Informing an Effective Response to Climate Change, Washington, DC: The National Academies Press.

22. ADB, 2021. A System-Wide Approach for Insurance Resilience, Manila & Rotterdam: Asian Development Bank (ADB) and Global Center on Adaptation (GCA).

23. CEN, 2019. EN ISO 14090:2019 Adaptation to climate change – Principles, requirements and guidelines (ISO 14090:2019), London: BSI Standards Limited.

24. Acclimatise, 2011. Non-paper Guidelines for Project Managers: Making vulnerable investments climate resilient, Brussels: European Commission Directorate-General Climate Action.

25. World Bank, 2020. The Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

26. GIH, 2020. Infrastructure Futures: The impact of megatrends on the infrastructure industry, Sydney: Global Infrastructure HUb, WOrld Economic Forum & Boston Consulting Group.

27. UNFCCC, 2011. Assessing the Costs and Benefits of Adaptation Options, Bonn: United Nations Framework Convention on Climate Change.

28. ASCE, 2020. Sustainable Procurement for Infrastructure, Reston: American Society of Civil Engineers.

29. ISI, 2018. Envision: Sustainable Infrastructure Framework Guidance Manual, Washington, DC: Institute for Sustainable Infrastructure.

30. Lazarow, N., 2016. Real options for coastal adaptation, Gold Coast: National Climate Change Adaptation Research Facility.

31. Oliveira, B. C. P., Behagel, J. H. & Sette Camara Moreira, L. S., 2015. Integrating Climate Resilience in Policy and Planning of Low Emission Development Strategies, Sao Paulo: Ecosynergy.

32. Guthrie, G., 2019. Real options analysis of climate-change adaptation: Investment flexibility and extreme weather events, Wellington: University of Wellington.

3. Feasibility & Preparation

4. Funding & Financing

5. Design

1. Global Resiliency Dialogue (2021). The Use of Climate Data and Assessment of Extreme Weather Event Risks in Building Codes Around the World: Survey Findings from the Global Resiliency Dialogue.

2. ICE (2021). What Makes Good Design? A Review of UK Civil Engineers’ Experiences of Design, Based on the NIC’s Design Principles for National Infrastructure, in Collaboration with the NIC Design Group

3. WFEO (2015). Model Code of Practice: Principles of Climate Change Adaptation for Engineers.

4. European Financing Institutions Working Group on Adaptation to Climate Change (EUFIWACC) (2016). Integrating Climate Change Information and Adaptation in Project Development

5. Cooney (2012). Downscaling Climate Models: Sharpening the Focus on Local-level Changes. Environ Health Perspect. 2012 Jan; 120(1): a22–a28. doi: 10.1289/ehp.120-a22

6. Gallego-Lopez, C. Essex, J. (with input from DFID) (2016). Designing for infrastructure resilience. Evidence on Demand, UK. 22p

7. USAID (2014). Climate-resilient Development: A Framework for Understanding and Addressing Climate Change.

8. Wahl, T. (2017). Compound Flooding: examples, methods and challenges. American Geophysical Union, Fall Meeting 2017.

9. ASCE (2018). Climate-resilient infrastructure: Adaptive design and risk management.

10. Deloitte (2020). The Predictive Power of Stress Tests to Tackle Climate Change.

11. IHA (2019). Hydropower Sector Climate Resilience Guide. London, United Kingdom

12. The World Bank (2019) Lifelines: The Resilient Infrastructure Opportunity.

13. NIC (2020). Climate, People, Places Value: Design Principles for National Infrastructure. National Infrastructure Commission Design Group.

14. C40 Cities and AECOM (2017). C40: Infrastructure Interdependencies + Climate Risks Report

15. BSI ISO 14091:2021(en) Section 6 and Annex C

16. INSW (2019). Guidelines for Resilience in Infrastructure Planning: Natural Hazards

17. ASCE Code of Ethics 2.b

18. ASCE Code of Ethics 2.c

19. UNEP (2020). DRAFT. Good practice guidance framework or sustainable infrastructure. Integrated, systems-level approaches.

20. Bjarke Ingels Group and One Architecture (2019). The Big “U”: Rebuild By Design – Promoting Resilience Post-Sandy Through Innovative Planning, Design & Programming

21. Van Steenbergen, F., Arroyo-Arroyo, F., Rao, K., Hulluka, T. A., Woldearegay, K., and Deligianni, A. (2021). Green Roads for Water: Guidelines for Road Infrastructure in Support of Water Management and Climate Resilience. International Development in Focus. Washington, DC: World Bank., p.171

22. Simonsen et al., (2015). Applying resilience thinking: Seven principles for building resilience in social-ecological systems. Stockholm resilience Centre.

23. ASCE (2021a). Hazard-Resilient Infrastructure: Analysis and Design.p.159

24. Tipper, D. (2013). Resilient network design: challenges and future directions. Telecommunication Systems. 56, 5-16(2014).

25. NYC Mayor’s Office of Resiliency (2020). Climate Resiliency Design Guidelines.

26. Brown et al. (2020). Resilience by Design: A Deep Uncertainty Approach for Water Systems in a Changing World. Water Security 9

27. INSW (2019). Guidelines for Resilience in Infrastructure Planning: Natural Hazards.

28. Argyroudis, S. A., et al. (2021). Digital technologies can enhance climate resilience of critical infrastructure

29. Main Roads Western Australia (2015). Guidelines for Variable Message Signs.

30. Wharton, K (2015). Resilient cities: From fail-safe to safe-to-fail. ASU Knowledge Enterprise. Available at: https://research.asu.edu/resilient-cities-fail-safe-safe-fail Last accessed: 06/10/2021.

31. INSW (2019). Guidelines for Resilience in Infrastructure Planning: Natural Hazards.

32. ASCE (2020). Sustainable Procurement for Infrastructure

33. IHA (2019). Hydropower Sector Climate Resilience Guide. London, United Kingdom.

34. Rahim, F. A., Muzaffar, S. A., Yusoff, N. S. M., Zainon, N., and Wang, C. (2014) Sustainable construction through life cycle costing. Journal of Building Performance. Volume 5. Issue 1.

35. The Resilience Shift (2020) Studying infrastructure resilience. Available at: https://www.resilienceshift.org/activities/studying-infrastructure-resilience/ Last accessed: 29/09/2021.

36. Hill, A. C., Mason, D., Potter, J. R., Hellmuth, M., Ayyub, B. M., and Baker, J. W (2019). Ready for Tomorrow: Seven Strategies for Climate-Resilient Infrastructure. Hoover Institution.

37. Guevara-Perez, L. T. (2012). Soft Story and 'Weak Story' in Earthquake Resistant Design: A Multidisciplinary Approach.

38. NYC Mayor’s Office of Resiliency (2020). Climate Resiliency Design Guidelines.

39. USAID (2015a) A Guide for USAID Project Managers: Bridges – Incorporating Climate Change Adaptation in Infrastructure Planning and Design

40. USAID (2015b) A Guide for USAID Project Managers: Roads – Incorporating Climate Change Adaptation in Infrastructure Planning and Design

41. USAID (2017) Climate Resilient water Infrastructure: Guidelines and Lessons from the USAID be Secure Project

42. Arup (2019). Rethinking Timber Buildings: Seven perspectives on the use of timber in building design and construction.

43. ISI (2021). Envision. Available at: https://sustainableinfrastructure.org/envision/ Last accessed: 29/09/2021

44. ICE (2021). What Makes Good Design? A Review of UK Civil Engineers’ Experiences of Design, Based on the NIC’s Design Principles for National Infrastructure, in Collaboration with the NIC Design Group.

45. BRE Global Ltd (2020). CEEQUAL Version 6. Technical Manual: UK & Ireland Projects.

46. ASCE (2021a). Hazard-Resilient Infrastructure: Analysis and Design.

47. IUCN (2020). IUCN Global Standard for Nature-based Solutions. A user-friendly framework for the verification design and scaling up of NbS, p.1

48. Biagini, B., Bierbaum, R., Stults, M., Dobardzic, S., & McNeeley, S. M. (2014). A typology of adaptation actions: A global look at climate adaptation actions financed through the Global Environment Facility. Global Environmental Change, 25, 97-108.

49. Green4Grey (2021). What is blue/green infrastructure? Available at: https://green4grey.be/en/green-blue-infrastructure/what Last accessed: 06/10/2021.

50. World Bank Group (2021). Climate Change Knowledge Portal. Available at: https://climateknowledgeportal.worldbank.org/ Last accessed: 29/09/2021.

51. Green-Gray Community of Practice. (2020). Practical Guide to Implementing Green-Gray Infrastructure.

52. Jerome, G. and Sinnett, D. (2019) Building with nature – improving the standards of GI across the UK. Town & Country Planning May 2019.

53. Asian Development Bank (2016) Nature-based solutions for building resilience in towns and cities: Case studies from the Greater Mekong Subregion.

54. IUCN (2020). IUCN Global Standard for Nature-based Solutions. A user-friendly framework for the verification design and scaling up of NbS.

55. Somarakis, G., Stagakis, S., & Chrysoulakis, N. (Eds.). (2019). ThinkNature Nature-Based Solutions Handbook.

56. IUCN (2020). IUCN Global Standard for Nature-based Solutions. A user-friendly framework for the verification design and scaling up of NbS, pg 8

6. Procurement

1. LCCP, 2009. Adapting to Climate Change. The Role of Public Procurement.

2. Carluccio, S., Pritchard, O., and Andrews, 2021. Developing and Accelerating Procurement Practices to Enable Sustainable and Resilient Infrastructure. The International Coalition for Sustainable Infrastructure: Guidance Tools and Standards Action Track.

3. ASCE, 2020. Sustainable Procurement for Infrastructure. Prepared by the Policy Committee of the Committee on Sustainability of ASCE

4. BSI, 2017. BS ISO 20400:2017 Sustainable procurement – Guidance

5. ADB, 2018. Operations Procurement Manual – Part A, Volume 1: General Considerations

6. UN, 2015. Transforming our world: the 2030 Agenda for Sustainable Development. Resolution adopted by the General Assembly on 25 September 2015

7. UNEP (2017). Global Review of Sustainable Public Procurement

8. ICE, 2017. Project 13. From Transactions to Enterprises: A new approach to delivering high performing infrastructure

9. Vajjhala, S. and Monks, E, 2018. Investing in better procurement processes can enable better infrastructure outcomes. The Avenue

10. INSW, 2019. Guidelines for Resilience in Infrastructure Planning: Natural Hazards.

11. Qureshi, Z, 2015. The Role of Public Policy in Sustainable Infrastructure. Brookings Institution

12. SKAo, 2016 Procurement Guide Version 3.0 the MEAT Criterion CO2 Perfromance Ladder for contracting authorities

13. IDB, 2020. Climate Resilient Public Private Partnerships: A Toolkit for Decision Makers

14. LCCP, 2009. Adapting to Climate Change. The Role of Public Procurement

15. GCA ,2021. Climate Resilient Infrastructure Officer: Handbook. Knowledge Module on Public Private Partnerships and Climate Resilient Infrastructure

16. GCA, 2021. Climate Resilient Infrastructure Officer: Handbook. Knowledge Module on Public Private Partnerships and Climate Resilient Infrastructure

17. ICE, 2018b. Project 13: Commercial Handbook

18. BSI ,2017. BS ISO 20400:2017 Sustainable procurement – Guidance

19. Hallegatte, S., Rentschler, J, and Rozenberg, J., 2019. Lifelines: The Resilient Infrastructure Opportunity. Sustainable Infrastructure Series. Washington, DC: World Bank. doi:10.1596/978-1-4648-1430-3. License: Creative Commons Attribution CC BY 3.0 IGO

20. UNEP, 2018. Guidance Document on Procuring Sustainable Buildings and Construction. Paris: UN Environment

21. UNEP,2018. Guidance Document on Procuring Sustainable Buildings and Construction. Paris: UN Environment

22. Welsh Government, 2019. Mutual Investment Model for Infrastructure Investment. Available at https://gov.wales/mutual-investment-model-infrastructure-investment. Last Accessed: 13/09/2021

23. Ofwat, 2021. Direct Procurement for Customers. Available at: https://www.ofwat.gov.uk/regulated-companies/markets/direct-procurement/direct-procurement-for-customers/. Last Accessed: 13/09/2021

24. Dora, J., 2019. How can engineering organisations successfully adapt to climate change? ICE. Available at: https://www.ice.org.uk/news-and-insight/the-civil-engineer/october-2019/how-engineering-adapt-climate-change Last Accessed 01/10/21

25. Re:focus Partners, 2021. A Toolkit for Procuring Resilience. http://www.refocuspartners.com Available at: https://the-atlas.com/Procuring_Resilience.pdf Last Accessed: 18/10/2021

26. Baquero, P. I.,2005. Chapter 19: Performance-based Procurement: The Key to Effective Basic Services Provision in Developing Countries. UNPCDC

27. Hughes, W. and Kabiri, S, 2013. Performance-based contracting in the construction sector. University of Reading. School of Construction Management and Engineering

28. The World Bank, 2021. Preparing, Procuring and Implementing Climate-Smart PPPs. Available at: https://ppp.worldbank.org/public-private-partnership/climate-smart/climate-smart-clean-technology-ppps/preparing-procuring-and-implementing-climate-smart-ppps#Appraisal Last accessed: 12 July 2021

29. UK Government, 2020. The Outsourcing Playbook. Central Government Guidance on Service Delivery, including Outsourcing, Insourcing, Mixed Economy Sourcing and Contracting. Version 2.0

30. ISI, 2018. Envision: Sustainable Infrastructure Framework Guidance Manual v3; GIB, 2018. SuRe: The Standard for Sustainable and Resilient Infrastructure. ST01 ENG Version 1.1

31. UNEP, 2017. Global Review of Sustainable Public Procurement

32. FHWA, 2017. P3 Toolkit. Conducting Procurement for Public-Private Partnerships (P3s)

33. Scottish Government, 2020. Supply Chain Resilience and Diversity. Scottish Procurement Policy Note. SPPN 9/2020

34. EU, 2014. Directive 2014/24/EU of the European Parliament and of the Council of 26 February 2014 on Public Procurement and Repealing Directive 2004/18/EC; WTO, 2012. Revised Agreement on Government Procurement and WTO related legal instruments

7. Construction

1. Canadian Construction Association, 2021. Press releases. Online Available at: https://www.cca-acc.com/canadian-construction-association-calls-for-greater-investment-in-sustainable-infrastructure-to-build-canadas-clean-economy/ Accessed 5 October 2021.

2. Canadian Construction Association, 2021. Strength, resilience, sustainability, s.l.: CCA.

3. Global Alliance for Buildings and Construction , 2021. History. Available at: http://globalabc.org/about/history-timeline Accessed 5 October 2021.

4. Global Alliance for Buildings and Construction, 2020. Tracking Progress. Available at: https://globalabc.org/our-work/tracking-progress-global-status-report Accessed 5 October 2021.

5. The World Bank Group & GFDRR, 2015. Building Regulation for Resilience: Managing Risks for Safer Cities, Washington DC: The World Bank.

6. Hallegatte, S., Rentschler, J. & Rozenberg, J., 2020. Adaptation Principles : A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington: World Bank.

7. City of Toronto , 2021. Building Resilience. Available at: http://wx.toronto.ca/inter/clerks/fit.nsf/0/3d0af0e4d40adc8b852582e500625cd3/$File/Toronto%2BGreen%2BStandards%2BVersion%2B3.0%2BChecklist%2BResilience%2BPlanning%2BNew%2BConstruction.pdf Last Accessed 5 October 2021.

8. United Nations Environment Programme, 2021. A Practical Guide to Climate-resilient Buildings & Communities, Nairobi: UNEP.

9. European Commission, 2021. Technical guidance on the climate proofing of infrastructure in the period 2021-2027, Brussels: European Commission.

10. Hanna, A. S., Tadt, E. J. & Whited, G. C., 2012. Request for Information: Benchmarks and Metrics for Major Highway Projects. Journal of Construction Engineering and Management, 138(12).

11. Song, L., Mohamed, Y. & AbouRizk, S. M., 2009. Early Contractor Involvement in Design and Its Impact on Construction Schedule Performance. Journal of Management in Engineering, 25(1).

12. BBC News, 2020. Time-lapse shows Wuhan hospital 'built in 10 days'. (Online) Available at: https://www.bbc.co.uk/news/av/world-asia-china-51348299 Last Accessed 8 October 2021.

13. Warrell, H., Staton, B. & Bounds, A., 2020. UK’s largest hospital to open after nine-day building programme. Financial Times, 01 April.

14. Kennedy, C., 2021. Network Rail unveils modular railway footbridge which can be erected in days. New Civil Engineer, 17 June.

15. Mingas, M., 2021. Schneider unveils world first, liquid cooled pre-fab facility. Available at: https://www.capacitymedia.com/articles/3828778/schneider-unveils-world-first-liquid-cooled-pre-fab-facility Last Accessed 6 October 2021.

16. UBIMET, n.d. Weather Cockpit®. Available at: https://www.ubimet.com/en/services/weather-cockpit/ Last Accessed 8 October 2021.

17. Met Office, 2018. Weather Services for Building Project Managers. Available at: https://www.metoffice.gov.uk/binaries/content/assets/metofficegovuk/pdf/business/sectors/construction-catalogue-guide-v2.pdf Last Accessed 6 October 2021.

18. Marais, H. & Ntsoane, M., 2020. Managing supply chain risk and disruption in capital projects, Africa Construction Trends Report, s.l.: Deloitte.

19. The White House, 2021. Building Resilient Supply Chains, Revitalizing American Manufacturing and Fostering Broad-Based Growth, Washington: The White House.

20. Autodesk Foundation & Monitor Institute by Deloitte, 2019. Supporting worker success in the age of automation, s.l.: Autodesk Foundation & Deloitte.

21. Climate Change Committee, 2020. The Sixth Carbon Budget. Manufacturing and construction, London: The CCC.

22. Prieto, R., 2002. The 3Rs: Lessons learned from September 11th, London: The Royal Academy of Engineering.

23. Australian Constructors Association , 2019. Guideline for Emergency Planning for the Australian Commercial Construction Industry , s.l.: Australian Constructors Association .

24. Rose, J. & Chmutina, K., 2021. Developing disaster risk reduction skills among informal construction workers in Nepal. Disasters, 45(3), pp. 627-646.

25. Pocock, J., Steckler, C. & Hanzalove, B., 2014. Improving Socially Sustainable Design and Construction in Developing Countries. Procedia Engineering, Volume 145, pp. 288-295.

26. Lawther, P. M., 2009. Community involvement in post disaster re‐construction ‐ case study of the British red cross Maldives recovery program. International Journal of Strategic Property Management, Volume 13, pp. 153-169.

27. Arnold, M. R. M. K. O. a. V. P., 2014. “Climate and Disaster Resilience: The Role for Community-Driven Development, Washington DC: World Bank.

28. Pocock, J., Steckler, C. & Hanzalove, B., 2014. Improving Socially Sustainable Design and Construction in Developing Countries. Procedia Engineering, Volume 145, pp. 288-295.

29. Caimi, A. et al., 2015. Assessing local building cultures for resilience & development: A practical guide for community based assessment. CRAterre, p. 121.

8. Operation & Maintenance

1. The World Bank (2019) Lifelines: The Resilient Infrastructure Opportunity.

2. FHWA (2017). Vulnerability Assessment and Adaptation Framework: Third Edition.

3. Arup (2019). Energy Resilience in an Interconnected World: Future-proofing energy systems: The Energy Resilience Framework.

4. Inter-American Development Bank (2012). Indicators to Assess the Effectiveness of ClimateChange Projects. Available at: https://publications.iadb.org/publications/english/document/Indicators-to-Assess-the-Effectiveness-of-Climate-Change-Projects.pdf Last accessed: 29/09/2021

5. Mitchell-Wallace et al. (2017) Natural Catastrophe Risk Management and Modelling: A Practitioner’s Guide

6. RMS (2008). A Guide to Catastrophe Modelling

7. Dlugolecki et al. (2009) Climate Change and its implications for catastrophe risk Modeling

8. ASCE (2015). Adapting Infrastructure and Civil Engineering Practice to a Changing Climate. Committee on Adaptation to a Changing Climate.

9. USAID (2014) Climate-resilient Development: A Framework for Understanding and Addressing Climate Change.

10. Arup (2013). Global Program for Safer Schools: Characteristics of Safer Schools.

11. Rayner, R. (2010) Chapter 8: Incorporating climate change within asset management. Asset Management – Whole-life management of physical assets.

12. C40 Cities and AECOM (2017). C40: Instructure Interdependencies + Climate Risks Report.

13. Arup (2021). Operational Readiness Activation and Transition. Available at: https://www.arup.com/expertise/services/advisory-services/assets-and-operations/operational-readiness-activation-and-transition-orat Last accessed: 15th July 2021.

14. Babu, S (2019). Exposure, Sensitivity and Adaptive Capacity: understanding climate change vulnerability. Available at: https://eco-intelligent.com/2019/10/22/exposure-sensitivity-and-adaptive-capacity/

15. Poff, N. L., Brown, C. M., Grantham, T. E., Matthews, J. H., Palmer, M. A., Spence, C. M., Wilby, R. L., Haasnoot, M., Mendoza, G. F., Dominigue, K. C., and Baeza, A. (2015). Sustainable water management under future uncertainty with eco-engineering decision scaling. Nature Climate Change. Perspective.

16. Ghile, Y. B., Taner, M. Ü., Brown, C., Grijsen, J. G., and Talbi, A (2013). Bottom-up climate risk assessment of infrastructure investment in the Niger River Basin. Climatic Change. DOI 10.1007/s10584-013-1008-9.

17. Deloitte (2020). The Predictive Power of Stress Tests to Tackle Climate Change.

18. Zio, E (2016). Critical Infrastructures Vulnerability and Risk Analysis. Eur J Secur Res. 1:97–114 DOI 10.1007/s41125-016-0004-2

19. Meyer, M. D., Amekudzi, A., O’Har, J. P. (2010). Transportation Asset Management Systems and Climate Change: Adaptive Systems Management Approach.

20. DEFRA (2011). Climate Resilient Infrastructure: Preparing for a Changing Climate.

21. UN (2019) UN-Water Policy Brief: Climate Change and Water.

22. CEAS (2019). A Systems Approach to Managing the Urban Infrastructure Grid. Report: NSF-sponsored workshop (grant CBET 1929869) September 9-10, Cincinnati OH. Available at: https://ceas.uc.edu/research/centers-labs/complex-systems-and-processes/projects/urban-systems.html

23. APRA (2021) COVID-19: A real-world test of operational resilience. Available at: https://www.apra.gov.au/covid-19-a-real-world-test-of-operational-resilience Last Accessed: 15th July 2021.

24. UNFCCC (2004). Technical paper 7: Assessing and Enhancing Adaptive Capacity. Brooks, N. and Adger W. N.

25. Gupta et al. (2010). The Adaptive Capacity Wheel: a method to assess the inherent characteristics of institutions to enable the adaptive capacity of society.

26. Scales, N. (2018). Real-time network management: Lessons and legacy from the 2018 Gold Coast Commonwealth Games. Transport and Main Roads Queensland, Brisbane.

27. LoBEG (2019). Risk-based Inspection of Highway Structures. Objective Risk-based Inspection Planning for the achievement of Effective Risk Management & Targeted Resourcing. Version 1.0

28. Grøtan, T. O. (2017). Training for Operational Resilience Capabilities (TORC): Summary of concept and experiences.

29. Infrastructure Australia (2021) A Pathway to Infrastructure Resilience Advisory Paper 2: Guidance for asset owners and operators in the short term.

30. Highways England (2019). Operational Metrics Manual.

31. ISI (2018) Envision: Sustainable Infrastructure Framework Guidance Manual. Third Edition.

32. PIANC (2020). Climate Change Adaptation Planning for Ports and Inland Waterways. PIANC Report N° 178. Available at: https://www.pianc.org/publications/envicom/wg178

33. National Infrastructure Commission (2020a). Anticipate, React, Recover: Resilient Infrastructure Systems

34. LoBEG (2019). Risk-based Inspection of Highway Structures. Objective Risk-based Inspection Planning for the achievement of Effective Risk Management & Targeted Resourcing. Version 1.0.

35. Nordgård, D. E. and Samdal, K. (2009). Establishing risk-based maintenance strategies for electricity distribution companies.

36. Wintel, J. B., Kenzie, B. W., Amphlett, G. J., and Smalley, S. (2001). Best practice for risk based inspection as part of plant integrity management. HSE Books.

37. Karlsson, R. (2014). Implementation of Advanced Monitoring Techniques in Road Asset Management – Results from the TRIMM project. Transport Research Arena 2014, Paris.

38. National Infrastructure Commission (2020b). Anticipate, React, Recover. Technical annex: Case Studies and Good Practice for Resilience

39. Hydro International (2021) How to optimise the efficiency of your water network with smart monitoring.

40. Shafiq, M., Hussain, G. A., Kütt, L., Elkalashy, N., and Lehtonen, M. (2015). Partial discharge diagnostic system for smart distribution networks using directionally calibrated induction sensors.

41. Chapman, L. and Bell, S. J. (2018). High-resolution Monitoring of Weather Impacts on Infrastructure Networks Using the Internet of Things.

42. Accedian (2021). Proactive infrastructure performance monitoring and mitigation. Available at: https://accedian.com/%20enterprises%20/performance-monitoring-n-apm/proactive-infrastructure-performance-monitoring-solution/ Last accessed: 03/11/2021.

43. Ní Bhreasail Á, Pritchard O, Carluccio S et al. (2019) Remote sensing for proactive geotechnical asset management of England’s Strategic Roads. Infrastructure Asset Management 6(4): 222.

44. Hall, P., Vanderbeck, R., and Triano, M. (May 2019) Electric utilities: An industry guide to enhancing resilience. Resilience Primer. Wood Group PLC and Resilience Shift, UK.

45. Climate Adapt (2019a). Use of remote sensing in climate change adaptation. Available at: Use of remote sensing in climate change adaptation — Climate-ADAPT (europa.eu) Last Accessed 03/11/2021

46. Climate Adapt (2019b). Establishment of early warning systems. Available at: Use of remote sensing in climate change adaptation — Climate-ADAPT (europa.eu) Last Accessed 03/11/2021

47. Climate Adapt (2019a). Use of remote sensing in climate change adaptation. Available at: https://climate-adapt.eea.europa.eu/metadata/adaptation-options/use-of-remote-sensing-in-climate-change-adaptation Last Accessed 03/11/2021

48. Jacks, E., Davidson, J., Wai, H. G. (2010). Guidelines on early warning systems and application of nowcasting and warning operations. World Meteorological Organization.

49. Grasso, V. F. (2014) Chapter 6: The State of Early Warning Systems. Reducing Disaster: Early Warning Systems for Climate Change.

50. UNDP (2018). Five approaches to build functional early warning systems.

51. IAM (2015) Asset Management – an anatomy. Version 3.

52. World Bank Group (2017). Integrating Climate Change into Road Asset Management.

53. IBM (2016) Using the Internet of Things for preventative maintenance.

54. OECD (2018). Climate-resilient Infrastructure: Policy Perspectives. OECD Environment Policy Paper No. 14

55. Anderson, B. and Kline, T (2015). Predictive Maintenance for Infrastructure.

56. Tan, M. YJ, Ubhayaratne, Indivarie, Huo, Ying, Varela, F. Bob and Xiang, Yong (2019). Predictive maintenance based on smart monitoring and data analytics, in Proceedings of the Australasian Corrosion Association 2019 Corrosion and Prevention Conference, Australasian Corrosion Association, (Melbourne, Vic), pp. 1-10.

57. Zhang, Wenjuan, Wang, Wenbin and Gang, Yi (2013) Maintenance strategy optimisation for infrastructure assets through cost modelling. Working Paper. Coventry, UK: University of Warwick, WBS. (WBS Working Paper).

58. Bhamidipati, S. (2015). Simulation Framework for Asset Management in Climate-change Adaptation of Transportation Infrastructure. Transportation Research Procedia.

59. ASCE (2018). Climate-resilient infrastructure: Adaptive design and risk management

60. Climate Adapt (2015). Climate resilient retrofit of a Rotterdam building. Available at: https://climate-adapt.eea.europa.eu/metadata/case-studies/climate-resilient-retrofit-of-a-rotterdam-building Last accessed: 29/09/2021.

61. Kayhanian, M., Li, H., Harvey, J. T., and Liang, X (2019). Application of permeable pavements in highways for stormwater runoff management and pollution prevention: California research experiences. International Journal of Transportation Science and Technology. Volume 8, Issue 4, December 2019, Pages 358-372

62. USAID (2017) Climate Resilient water Infrastructure: Guidelines and Lessons from the USAID be Secure Project.

63.

64. NCHRP (2013). Climate Change, Extreme Weather Events, and the Highway System: A Practitioner’s Guide.

65. Green-Gray Community of Practice. (2020). Practical Guide to Implementing Green-Gray Infrastructure.

66. Berland, A., Shiflett, S. A., Shuster, W. D., Garmestani, A. S., Goddard, H. C., Herrmann D. L., and Hopton, M. E. (2017). The role of trees in urban stormwater management. Landscape and Urban Planning. 283 (267-177).

67. OECD, 2018

68. Carbon Tracker Initiative (2017). Stranded Assets. Available at: https://carbontracker.org/terms/stranded-assets/. Last Accessed: 11 May 2021.

69. USAID (2015) A Guide for USAID Project Managers: Bridges – Incorporating Climate Change Adaptation in Infrastructure Planning and Design.

70. Hiles, A. (2011). The Definitive Handbook of Business Continuity Management

71. Kazantizdou & al. (2019). Climate Related Business Continuity Model for Critical Infrastructures.

72. BSI (n.d.). Adapting to Climate Change using your Business Continuity Management System..

73. ILF (n.d.) Climate Change Challenges and Solutions in Infrastructure Planning and Adaptation

74. Hallegatte et al. (2020). The Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience

75. Ono and Ishiwatari (n.d.). Business Continuity Plans

76. BSI (n.d.). Adapting to Climate Change using your Business Continuity Management System.

77. Christopher, M. (2018) The Mitigation of Risk in Resilient Supply Chains

78. Jira, C. F. and Toffel, M. W. (2013). Engaging Supply Chains in Climate Change. Manufacturing and Service Operations Management Articles in Advance, pp. 1-19.

79. Hall et al. (2016). The Future of National Infrastructure: A System-of-Systems Approach

80. UNDR (2020) Making Critical Infrastructure Resilient: Ensuring Continuity of Service – Policy and Regulations in Europe and Central Asia

81. The Royal Academy of Engineering (2011) Infrastructure, Engineering & Climate Change Adaption – ensuring services in an uncertain future

82. Reilly, P., E. Serafinelli, R. Stevenson, L. Petersen, L. Fallou. (2018). “Enhaning Critical Infrastructure resilience through information-sharing: Recommendations for European Critical Infrastructures Operators”.

83. Serafinelli, E., P. Reilly, R. Stevenson, L. Petersen, L. Fallou, E. Carreira. (2018). « A communication strategy to build critical infrastructure resilience ».

84. United Nations General Assembly, 2016; cited from UNISDR, 2017

9. End of Life

1. AECOM International Development, 2017. limate-Resilient Water Infrastructure: Guidelines and Lessons from the USAID Be Secure Project, Manila: USAID Philippines.

2. The IAM+, 2015. Asset Management - an anatomy, Bristol: The Institute of Asset Management.

3. Somanathan, E. et al., 2014. National and Sub-national Policies and Institutions. In: O. Edenhofer, et al. eds. Climate Change 2014: Mitigation of Climate Change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Cambridge & New York: Cambridge University Press, pp. 1141-1205.

4. United Nations, 2021. Managing Infrastructure Assets for Sustainable Development: A handbook for local and national governments, New York: United Nations.

5. ASCE, 2020. Sustainable Procurement for Infrastructure, Reston: American Society of Civil Engineers

6. Acclimatise, 2011. Non-paper Guidelines for Project Managers: Making vulnerable investments climate resilient, Brussels: European Commission Directorate-General Climate Action.

7. ASCE, 2021. Standard Requirements for Sustainable Infrastructure, Reston: American Society of Civil Engineers.

8. Topham, E., Gonzalez, E., McMillan, D. & Joao, E., 2019. Challenges of decommissioning offshore wind farms: Overview of the European experience. Journal of Physics: Conference Series, Volume 1222.

9. Invernizzi, D. C. et al., 2020. Developing policies for the end-of-life of energy infrastructure: Coming to terms with the challenges of decommissioning. 144(111677).

10. ISI, 2018. Envision: Sustainable Infrastructure Framework Guidance Manual, Washington, DC: Institute for Sustainable Infrastructure.

11. The World Bank, 2020. The Adaptation Principles: A Guide for Designing Strategies for Climate Change Adaptation and Resilience, Washington, DC: International Bank for Reconstruction and Development / The World Bank.

12. Weerasinghe, S. et al., 2014. Planned Relocation, Disasters and Climate Change: Consolidating Good Practices and Preparing for the Future, Sanremo: The UN Refugee Agency.

13. Perino, A. et al., 2019. Rewilding complex ecosystems. Science, 364(6438).

14. Pettorelli, N. et al., 2018. Making rewilding fit for policy. Journal of Applied Ecology, 55(3), pp. 1114-1125.

15. Kim, Y., Chester, M. V., Eisenberg, D. A. & Redman, C. L., 2019. The Infrastructure Trolley Problem: Positioning Safe-to-fail Infrastructure for climate change Adaptation. Earth's future, volume 7, pp. 7004-717.

16. Zevenbergen, R. A., van Herk, S. & Rijke, J., 2013. Rijkswaterstaat room for the river. Tailor made collaboration: A clever combination of process and content, Delft: UNESCO Institute for Water Education.

17. Ellen MacArthur Foundation, 2019. Completing the Picture: How the Circular Tackles Climate Change, Cowes: Ellen MacArthur Foundation.

18. Arup, 2018. Circl-e: from Decommissioning to Regeneration, Milan: Arup.

19. Invernizzi, D. C. et al., 2020. Developing policies for the end-of-life of energy infrastructure: Coming to terms with the challenges of decommissioning. 144(111677).

20. Royal Academy of Engineering, 2021. Decarbonising construction: building a newnet zero industry, London: National Engineering Policy Centre.

21. Heinrich, M. & Lang, W., 2019. Materials Passports - Best Practice, Munich: Technical University of Munich.

22. Arup, 2020. Arup Explores Regenerative design, Berlin: Arup.

23. Newman, G., Dongying, L., Rui, Z. & Dingding, R., 2019. Resilience through Regeneration: The economics of repurposing vacant land with green infrastructure. Landscape Architecture Frontiers, 6(6), pp. 10-23.