Infrastructures of risk: a mapping approach towards controversies on risks

Beck, Gerald J.; Kropp, Cordula

doi:10.1080/13669877.2010.505348

Cited by 34 publications

(22 citation statements)

References 25 publications

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“…Selected studies analyze communication in case studies on H1N1, H5N1 or another health risk event or encompass different case studies . Building trust is often described as a crucial component of risk communication .…”

Section: Resultsmentioning

confidence: 99%

Unresolved issues in risk communication research: the case of the H1N1 pandemic (2009–2011)

Barrelet

Bourrier

Burton-Jeangros

et al. 2013

Influenza Resp Viruses

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The 2009 H1N1 pandemic had considerable impact on risk perceptions, vaccination campaigns, and global health governance. In this context, risk communication issues have been probably the most puzzling and the least understood in retrospect. This article reviews the current knowledge on the following issues: risk and pandemic perceptions; vaccination perceptions and practices; rumors and rumor propagation; and health risk communication. It also highlights the research gaps in these areas that remain to be further explored in the future.

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Section: Resultsmentioning

confidence: 99%

Unresolved issues in risk communication research: the case of the H1N1 pandemic (2009–2011)

Barrelet

Bourrier

Burton-Jeangros

et al. 2013

Influenza Resp Viruses

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“…As the actor network is a constantly evolving the stability of the valleys is not ensured but dependent upon the continued enrolment and inscription of their defining relations between actors. Mapping out actor networks in this manner is similar to the risk cartography used by Beck and Kropp (2011) in relation to identifying and mapping infrastructures of risk. In the context of the risk of the ash cloud, the initial safety standard of ash concentration appears to be well inscribed and located within a deep valley of relations define by the Civil Aviation Authority (CAA).…”

Section: Actor Network Theory and Visualizationmentioning

confidence: 98%

‘Riskscapes’ as a heuristic tool for understanding environmental risks: The Eyjafjallajokull volcanic ash cloud of April 2010

Inkpen

2016

Risk Manag

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This paper looks at the 2010 ash cloud event associated with eruption of Eyjafjallajokull volcano in Iceland through the lens of actor network theory. Using this theory the shifting assignment of responsibility for the impact of the ash cloud can be traced amongst the various actors involved in the network focus on UK airspace. Mapping the relations between actors, in terms of their nature and strength, and how these change as the event unfolded can help to analyse the changing power relations and activation of relations to align the network. Understanding the activation of such links under the stress of an extreme environmental event and the network alignment it precipitates could have important implications for managing environmental risks.

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“…Risk determination focuses on understanding and measuring likely the consequential effects under various scenarios when a disaster strikes while risk management focuses on evaluating and determining what to do under uncertain hazardous conditions (Rowe 1980;Vose 2000;Bedford and Cooke 2001;Haimes 2004;Murphy and Gardoni 2006;Beck and Kropp 2011). The heart of hazard risk analysis is extrapolation from hazard's historical and current impacts through field experiments or laboratory simulations (Kates and Kasperson 1983).…”

Section: Technological Disaster Risk Analyses and Modelsmentioning

confidence: 99%

Revealing global hot spots of technological disasters: 1900–2013

Shen

Hwang

2016

Journal of Risk Research

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Technological disasters can happen in any country in the world and cause human fatalities, injuries, and economic damages, among other physical and social consequences. As the world adopts more technologies, becomes further industrialized, continues faster urbanization, and has larger and more concentrated population, the occurrences and impacts of technological disasters are likely to be more frequent and severe and call for more scholarly research. However, there is a lack of good models for reliable technological risk analysis, which is the foundation for effective preparation for, sound mitigation of, and quick recovery from technological disasters. This research develops an expected risk analysis model, including a base sub-model and a location quotient sub-model, for nearly 200 countries of the world, using the technological disasters recorded in the EM-DAT database for the period 1900-2013. The sub-models are based on country-level risk impacts in terms of expected fatalities, injuries, people affected, and economic losses, their standard deviations, ranges, and corresponding country percentages and ranks. The sub-models are validated using correlations and scatter plots for the observed and expected risk impacts. The results show that the sub-models perform well by yielding consistent expected risks and related measures, indicating that the expected risk analysis model is a reasonably good alternative to existing risk analysis models.

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Infrastructures of risk: a mapping approach towards controversies on risks

Cited by 34 publications

References 25 publications

Unresolved issues in risk communication research: the case of the H1N1 pandemic (2009–2011)

Unresolved issues in risk communication research: the case of the H1N1 pandemic (2009–2011)

‘Riskscapes’ as a heuristic tool for understanding environmental risks: The Eyjafjallajokull volcanic ash cloud of April 2010

Revealing global hot spots of technological disasters: 1900–2013

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