Abstracts – Browse Results
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Agha, R H and Kamara, J M (2017) Adaptations in traditional courtyard houses in Baghdad, Iraq. International Journal of Building Pathology and Adaptation, 35(04), 348–63.
Badi, S (2017) Public sustainable-energy requirements and innovation in UK PFI school projects. Construction Management and Economics, 35(04), 218-38.
Banfill, P F G and Peacock, A D (2007) Energy-efficient new housing - the UK reaches for sustainability. Building Research & Information, 35(04), 426–36.
Boardman, B (2007) Examining the carbon agenda via the 40% House scenario. Building Research & Information, 35(04), 363–78.
Botti, A and Ramos, M (2017) Adapting the design of a new care home development for a changing climate. International Journal of Building Pathology and Adaptation, 35(04), 417–33.
Brown, L A and Cresciani, M (2017) Adaptable design in Olympic construction. International Journal of Building Pathology and Adaptation, 35(04), 397–416.
Conejos, S, Chew, M Y and Yung, E H (2017) The future adaptivity of nineteenth century heritage buildings. International Journal of Building Pathology and Adaptation, 35(04), 332–47.
Demirel, H Ç, Leendertse, W, Volker, L and Hertogh, M (2017) Flexibility in PPP contracts: dealing with potential change in the pre-contract phase of a construction project. Construction Management and Economics, 35(04), 196-206.
Fieldson, R (2017) The afterlife clause; towards a strategy for improved adaptation in retail property. International Journal of Building Pathology and Adaptation, 35(04), 364–79.
Heidrich, O, Kamara, J, Maltese, S, Re Cecconi, F and Dejaco, M C (2017) A critical review of the developments in building adaptability. International Journal of Building Pathology and Adaptation, 35(04), 284–303.
Hemström, K, Gustavsson, L and Mahapatra, K (2017) The sociotechnical regime and Swedish contractor perceptions of structural frames. Construction Management and Economics, 35(04), 184-95.
Kohler, N and Yang, W (2007) Long-term management of building stocks. Building Research & Information, 35(04), 351–62.
Ladinski, V (2017) Designing for adaptability: The Gateshead Civic Centre. International Journal of Building Pathology and Adaptation, 35(04), 380–96.
Lisø, K R, Myhre, L, Kvande, T, Thue, J V and Nordvik, V (2007) A Norwegian perspective on buildings and climate change. Building Research & Information, 35(04), 437–49.
Lowe, R (2007) Technical options and strategies for decarbonizing UK housing. Building Research & Information, 35(04), 412–25.
Nwachukwu, C V, Udeaja, C, Chileshe, N and Okere, C E (2017) The critical success factors for stakeholder management in the restoration of built heritage assets in the UK. International Journal of Building Pathology and Adaptation, 35(04), 304–31.
Phua, F T T (2017) Does the built-environment industry attract risk-taking individuals?. Construction Management and Economics, 35(04), 207-17.
- Type: Journal Article
- Keywords: physical risk propensity; gambling risk propensity; architecture; occupational attraction; studies; occupation; workplace safety; gambling; profession; finance; risk; decision analysis; construction management; construction industry
- ISBN/ISSN: 0144-6193
- URL: https://doi.org/10.1080/01446193.2016.1237776
- Abstract:
This exploratory research examines whether or not those attracted to professional-level occupations in the built-environment industry are innately physical risk-takers and hence potentially, thereby, more likely to countenance or contribute to physically risky workplace climates. Using individual-level data, the occupational attractiveness of the built-environment industry subsectors of construction management and architecture are each found positively and significantly to be predicted by physical risk-taking propensity, but not by a comparator risk-taking propensity, gambling. Conversely, the occupational attractiveness of a comparator profession in financial services is found to be significantly predicted by gambling risk-taking propensity, but not by physical risk-taking propensity. Although exploratory, our finding that two key professions in the built-environment industry are each discretely found to be attractive to physical risk-takers suggests not only that constituent occupations within the industry, but that the industry as a whole might perhaps engender a self-reinforcing suboptimal workplace safety climate. Accordingly, constituent subsectors of the industry may need both separately and collectively to consider the phenomenon of physical risk-taking propensity amongst the professionals it attracts in order effectively to set and manage the site work-place safety climate that such professionals are ultimately responsible for creating and delivering in a sector fraught with physical risks for site workers.;This exploratory research examines whether or not those attracted to professional-level occupations in the built-environment industry are innately physical risk-takers and hence potentially, thereby, more likely to countenance or contribute to physically risky workplace climates. Using individual-level data, the occupational attractiveness of the built-environment industry subsectors of construction management and architecture are each found positively and significantly to be predicted by physical risk-taking propensity, but not by a comparator risk-taking propensity, gambling. Conversely, the occupational attractiveness of a comparator profession in financial services is found to be significantly predicted by gambling risk-taking propensity, but not by physical risk-taking propensity. Although exploratory, our finding that two key professions in the built-environment industry are each discretely found to be attractive to physical risk-takers suggests not only that constituent occupations within the industry, but that the industry as a whole might perhaps engender a self-reinforcing suboptimal workplace safety climate. Accordingly, constituent subsectors of the industry may need both separately and collectively to consider the phenomenon of physical risk-taking propensity amongst the professionals it attracts in order effectively to set and manage the site work-place safety climate that such professionals are ultimately responsible for creating and delivering in a sector fraught with physical risks for site workers.;
Salagnac, J-L (2007) Lessons from the 2003 heat wave: a French perspective. Building Research & Information, 35(04), 450–7.
Schiller, G (2007) Urban infrastructure: challenges for resource efficiency in the building stock. Building Research & Information, 35(04), 399–411.
Shipworth, D (2007) The Stern Review: implications for construction. Building Research & Information, 35(04), 478–84.
ürge-Vorsatz, D, Harvey, L D D, Mirasgedis, S and Levine, M D (2007) Mitigating CO2 emissions from energy use in the world's buildings. Building Research & Information, 35(04), 379–98.
ürge-Vorsatz, D, Koeppel, S and Mirasgedis, S (2007) Appraisal of policy instruments for reducing buildings' CO2 emissions. Building Research & Information, 35(04), 458–77.