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Kriech AJ Osborn LV Wissel HL Kurek JT Sweeney BJ Peregrine CJ 《Journal of environmental monitoring : JEM》2004,6(10):827-833
Exposure to asphalt fumes has a threshold limit value (TLV of 0.5 mg m(-3) (benzene extractable inhalable particulate) as recommended by the American Conference of Governmental Industrial Hygienists (ACGIH). This reflects a recent change (2000) whereby two variables are different from the previous recommendation. First is a 10-fold reduction in quantity from 5 mg m(-3) to 0.5 mg m(-3). Secondly, the new TLV specifies the "inhalable" fraction as compared to what is presumed to be total particulate. To assess the impact of these changes, this study compares the differences between measurements of paving asphalt fume exposure in the field using an "inhalable" instrument versus the historically used 'total' sampler. Particle size is also examined to assist in the understanding of the aerodynamic collection differences as related to asphalt fumes and confounders. Results show that when exposures are limited to asphalt fumes, a 1:1 relationship exists between samplers, showing no statistically significant differences in benzene soluble matter (BSM). This means that for the asphalt fume ACGIH TLV, the 'total' 37-mm sampler is an equivalent method to the "inhalable" method, referred to as IOM (Institute of Occupational Medicine), and should be acceptable for use against the TLV. However, the study found that when confounders (dust or old asphalt millings) are present in the workplace, there can be significant differences between the two samplers' reported exposure. The ratio of IOM/Total was 1.37 for milling asphalt sites, 1.41 for asphalt paving over granular base, and 1.02 for asphalt over asphalt pavements. 相似文献
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Peter Neal Peregrine 《Environmental Hazards》2019,18(2):93-110
Four hypotheses concerning the relationship between climate-related disasters and conflict are tested using archaeological data in a controlled cross-cultural comparison. The four hypotheses are (1) Conflict increases following climate-related disasters because local economic conditions deprive polities of tax revenue so that they can no longer suppress conflict; (2) Conflict increases following climate-related disasters because existing social inequalities lead to conflicts over differential access to resources; (3) Conflict increases following climate-related disasters because migration forces population into condensed settlements ripe for conflict; and (4) Conflict increases following climate-related disasters in polities where leaders tightly control access to political authority because leaders may use violence to maintain control over the resources they use to secure support from other elites. Only the fourth hypothesis is supported. It is argued that understanding pre-disaster political strategies is key to understanding post-disaster conflict. 相似文献
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We investigated the effects of a warmer climate, and seasonal trends, on the fate of oil spilled in the Arctic. Three well blowout scenarios, two shipping accidents and a pipeline rupture were considered. We used ensembles of numerical simulations, using the OSCAR oil spill model, with environmental data for the periods 2009–2012 and 2050–2053 (representing a warmer future) as inputs to the model. Future atmospheric forcing was based on the IPCC’s A1B scenario, with the ocean data generated by the hydrodynamic model SINMOD. We found differences in “typical” outcome of a spill in a warmer future compared to the present, mainly due to a longer season of open water. We have demonstrated that ice cover is extremely important for predicting the fate of an Arctic oil spill, and find that oil spills in a warming climate will in some cases result in greater areal coverage and shoreline exposure. 相似文献
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Jeremy Wilkinson CJ Beegle-Krause Karl-Ulrich Evers Nick Hughes Alun Lewis Mark Reed Peter Wadhams 《Ambio》2017,46(3):423-441
Renewed political and commercial interest in the resources of the Arctic, the reduction in the extent and thickness of sea ice, and the recent failings that led to the Deepwater Horizon oil spill, have prompted industry and its regulatory agencies, governments, local communities and NGOs to look at all aspects of Arctic oil spill countermeasures with fresh eyes. This paper provides an overview of present oil spill response capabilities and technologies for ice-covered waters, as well as under potential future conditions driven by a changing climate. Though not an exhaustive review, we provide the key research results for oil spill response from knowledge accumulated over many decades, including significant review papers that have been prepared as well as results from recent laboratory tests, field programmes and modelling work. The three main areas covered by the review are as follows: oil weathering and modelling; oil detection and monitoring; and oil spill response techniques. 相似文献
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