Abstract
Climate change is increasingly becoming a threat to future development plans, sustainability of existing infrastructure, and biodiversity conservation. Assessment of vulnerability levels, adaptation measures, models, and climate change variables have majorly focused on biological systems. Besides biodiversity, the construction industry faces equally high threats from climatic changes with enormous carbon price-related risks.
Construction in the developing nations is gaining momentum and is a development indicator as well as a major contributor to GDP. However, infrastructure is very vulnerable structurally and financially to extreme weather conditions and events. This calls for a paradigm shift in conducting business in the construction industry in developing countries. Awareness of climate change among engineers, architects, quantity surveyors, construction managers, and contractors in the industry in Kenya was evaluated in this chapter. Further, using vulnerability and adaptation indicators in the assessment tool, the extent of integration of climate knowledge in planning and implementing infrastructure projects in Kenya was evaluated. The findings indicate that there is great need to initiate early warning systems, incorporate rigorous risk assessments to determine infrastructure vulnerability levels, integrate adaptation measures and strengths for infrastructure and buildings to continue functioning in a changing planet, and avert retrogression and mark-timing development wise.
References
Andrey J, Mills N (2003) Climate change and the Canadian transportation system: vulnerabilities and adaptations. Dep Geogr Publ Ser Univ Waterloo 55:235–279
Brager S (2013) Benefits of improving occupant comfort and well-being in buildings. In: Proceedings of the 4th international Holcim forum for sustainable construction: the economy of sustainable construction, pp 181–194
Butera F, Adhikari R, Aste N (2015) Sustainable building design for tropical climates. UN-Habitat-UNON-United Nations Offices, Nairobi, Publishing Services Section
Camilleri T (2000) Implications of climate change for the construction sector: houses. BRANZ, Porirua
Cela M, Hulsey J, Titus G (2010) South Florida. In: Titus JG, Trescott DL, Hudgens DE (eds) The likelihood of shore protection along the Atlantic Coast of the United States, Volume 2: New England and the Southeast. Report to the U.S. Environmental Protection Agency, Washington, DC
Cervigni R, Liden R, Neumann J, Strzepek K (2015) Enhancing the climate resilience of Africa’s infrastructure: the power and water sectors. World Bank Publications, Washington, DC
Climate Change Act (2016) (Ken)
European Commission (2007) Communication from the Commission to the European Parliament, the Council, the European Economic and Social Committee and the Committee of the Regions. COM (2007), 569, Brussels
Hamin M, Gurran N (2009) Urban form and climate change: balancing adaptation and mitigation in the U.S. and Australia. Habitat Int 33(3):238–245
HM Government (2011) Department for Environment, & Rural Affairs. Climate resilient infrastructure: preparing infrastructure for a changing climate (Vol. 8065). The Stationery Office
IPCC AR4 WGII (2007) Climate change 2007 – impacts, adaptation and vulnerability. Contribution of Working Group II to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change, 2007. Glossary available online http://www.ipcc.ch/pdf/glossary/ar4-wg2.pdf
Kirshen P, Knee K, Ruth M (2008) Climate change and coastal flooding in Metro Boston: impacts and adaptation strategies. Clim Change 90:453–473
Kyoto Protocol (1997) United Nations framework convention on climate change. Kyoto Protocol, Kyoto, 19
Leichenko RM, O’Brien KL, Solecki WD (2010) Climate change and the global financial crisis: a case of double exposure. Annals of the Association of American Geographers, 100(4):963–972
Major D, Bader D, Leichenko R, Johnson K, Linkin M (2014) Projecting future insured coastal flooding damages with climate change
Mehrotra S et al (2011) Climate change and urban transportation systems. In: Rosenzweig C, Solecki D, Hammer A, Mehrotra S (eds) First assessment report on climate change and cities (ARC3). Cambridge University Press, New York
Muasya P (2016, 21 November) Floods wash away part of Standard Gauge Railway (SGR) project. Standard Media Group. Retrieved from https://www.standardmedia.co.ke/article/2000224139/floods-wash-away-part-of-standard-gauge-railway-sgr-project
National Climate Change Action Plan (2013–2017) (Ken)
National Climate Change Response Strategy (2010) (Ken)
Nelson J, Schuchard R (2011) Adapting to climate change: a guide for the mining industry. Business for Social Responsibility
Nelson C et al (2009) Forecasting the combined effects of urbanization and climate change of stream ecosystems: from impacts to management options. J Appl Ecol 46(1):154–163
Rosenzweig C, Major C, Demong K (2007) Managing climate change risks in New York City’s water system: assessment and adaptation planning. Mitig Adapt Strateg Glob Chang 12(8): 1391–1409
Rosenzweig C et al (eds) (2011a) First assessment of research on Climate change in cities, Cambridge University Press
Rosenzweig C, Solecki W, DeGaetano A (eds) (2011b) Responding to climate change in New York State: the ClimAID integrated assessment for effective climate change adaptation. Technical report. New York State Energy Research and Development Authority (NYSERDA), Albany. Chapter 9
Stone J, Hess J, Howard F (2010) Urban form and extreme heat events: are sprawling cities more vulnerable to climate change than compact cities? Environ Health Perspect 118(10):1425–1428
Titus JG, Hudgens DE, Trescott DL, Craghan M, Nuckols WH, Hershner CH, O’Connell JF (2009) State and local governments plan for development of most land vulnerable to rising sea level along the US Atlantic coast. Environmental Research Letters, 4(4), 044008
UNEP SBCI (2009) Buildings and climate change: summary for decision-makers. United Nations Environmental Programme, Sustainable Buildings and Climate Initiative, Paris, pp 1–62
United Nations (2010) Report of the Conference of the Parties on its sixteenth session, vol 31, Cancun
United Nations (2014) World urbanization prospects: the 2014 revision, highlights. Department of Economic and Social Affairs. Population Division, United Nations
Wilbanks TJ, Fernandez S (2014) Climate change and infrastructure, urban systems, and vulnerabilities: technical report for the US Department of Energy in Support of the National Climate Assessment. Island Press
Wilby L (2007) A review of climate change impacts on the built environment. Built Environ 33(1): 31
World Bank (2015) Moving toward climate-resilient transport the World Bank’s experience from building adaptation into programs. World Bank Group. Washington DC
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Ruth, O.N., Njiiri, M.P., Maklago, E., Lilian, O. (2019). Vulnerability and Adaptation Levels of the Construction Industry in Kenya to Climate Change. In: Leal Filho, W. (eds) Handbook of Climate Change Resilience. Springer, Cham. https://doi.org/10.1007/978-3-319-71025-9_65-1
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