A consequence of the choice of scope and models is that possible

A consequence of the choice of scope and models is that possible impacts are reduced to a temporary

impact because the choice of scientific approach includes an GSK126 molecular weight assumption that the cod stock will, given time, recover from an oil spill. But experience, for example on the overfishing of Northern cod [54] or the effects of the Exxon Valdez oil spill [51], suggests that major impacts can cause changes in the ecosystem structure which make it difficult, maybe impossible, for stocks or ecosystems to recover. Weinberg [55, p. 209] introduced the concept of ‘trans-science’, defined as “questions that can be asked of science and yet which cannot be answered by science”. Risk assessment is in the realm of trans-science: first, a sound empiric basis for calculating a

worst-case scenario and its probability would have required decades, at least, to provide a sufficient number of comparable blowouts and second, due to the complexity of ecosystems, a complete assessment of impacts is not achievable. This means that choices, of which some will not be science based, need to be made on how to approach the problem of whether petroleum production in the Lofoten area constitutes an acceptable risk to the environment, and if so, in which localities and with what safeguards. A pressing question is whether the present choice of approach, resulting in a quite narrow scope of risk assessments, is relevant for policy making. As argued above, quantified measures for risk assessments learn more and its associated uncertainties are impossible to achieve without, perhaps Fulvestrant datasheet considerable, uncertainty. Still, risk assessments may indicate important perspectives on risks. It is reasonable to assume that in case the area is opened, simulation studies may indicate sites that are likely to cause less harm than others in case of a major oil spill. The oil industry has proven to hold technological equipment and knowhow to drill horizontally for quite some distance and has used this technology to avoid drilling close to vulnerable benthic communities such

as coral reefs [56]. A different aspect of developing risk assessments is that the cooperation between sectors on developing criteria for these has already facilitated new discussions and reflections on knowledge and uncertainty. Taken together, the development of risk assessments based on the worst-case scenarios has a certain potential. However, it is disputable whether worst-case scenarios can be used as a key instrument for deciding whether to open the Lofoten area or not. How well do effects on cod larvae represent the effects on the ecosystem? And how can the attention these risk assessments get from the experts and the public be understood? There is a need to look closer at the role of risk assessments and their uncertainties. First of all it must be clear what it is. A worst-case scenario is not a worst imaginable scenario.

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