Global ETD Search

21	Beaufort County & the BASF Controversy: Reframing the Struggle Against Poverty as Environmental Resistance Woods, Laura 01 January 2018 (has links) In 1969 a German company, Badishe Anilin und Sodafabrik (BASF), sited a petrochemical facility in Beaufort County, South Carolina. Protests broke out, largely led by Charles E. Fraser, a man well-known for developing Beaufort County's Hilton Head Island into a famous Southern resort community. However, Beaufort's black residents largely supported the construction of the facility, an act that has been traditionally reduced to their attempts to secure jobs. Given that the majority of Beaufort's black residents lived in such poor conditions that they suffered myriad diseases, this paper argues that black Americans were instead engaged in ecological struggles within the confines of their homes. BASF Bluffton Beaufort County Environmental Resistance
22	Seasonality in the response of sea ice and upwelling to wind forcing in the southern Beaufort Sea Wang, Qiang 05 1900 (has links) The seasonal pattern of ice motion in response to wind forcing and potential consequences to upwelling on the Mackenzie Shelf are considered using satellite-derived ice motion data from the National Snow and Ice Data Center and the NCEP 10 m wind data. The frequency of strong upwelling-favorable alongshore ice motion is high in early winter (November and December) compared to middle and late winter (January to May).For periods when the alongshore component of the wind is upwelling-favorable, the ratio of ice drift divided by wind speed on the Mackenzie Shelf is 0.024 in November and0.008 in March; we conjecture that this ratio decreases as winter progresses because the internal ice stress becomes stronger as both ice thickness and ice concentration increase. This constitutes a possible 10-fold decrease in the seasonal transmission of wind stress to the underlying water from November to March. This ratio in May (0.015) is higher than that in March. We suggest that it is because the internal ice stress becomes weaker as ice concentration decreases on the Mackenzie Shelf in May. Hence, under the same wind forcing, the potential for winter upwelling on Mackenzie Shelf may be enhanced if climate warming results in reduced ice thickness and/or ice concentration. Numerical model results show that the stress on the shelf could be reduced because of the internal ice stress from the pack ice over the deep ocean when the ice moves like a rigid body. We found that the model results are not realistic when the ice strength is 5,000 Nm-2. When the ice strength is 27,500 Nm-2, the model results are more realistic. sea ice upswelling southern Beaufort Sea
23	Seasonality in the response of sea ice and upwelling to wind forcing in the southern Beaufort Sea Wang, Qiang 05 1900 (has links) The seasonal pattern of ice motion in response to wind forcing and potential consequences to upwelling on the Mackenzie Shelf are considered using satellite-derived ice motion data from the National Snow and Ice Data Center and the NCEP 10 m wind data. The frequency of strong upwelling-favorable alongshore ice motion is high in early winter (November and December) compared to middle and late winter (January to May).For periods when the alongshore component of the wind is upwelling-favorable, the ratio of ice drift divided by wind speed on the Mackenzie Shelf is 0.024 in November and0.008 in March; we conjecture that this ratio decreases as winter progresses because the internal ice stress becomes stronger as both ice thickness and ice concentration increase. This constitutes a possible 10-fold decrease in the seasonal transmission of wind stress to the underlying water from November to March. This ratio in May (0.015) is higher than that in March. We suggest that it is because the internal ice stress becomes weaker as ice concentration decreases on the Mackenzie Shelf in May. Hence, under the same wind forcing, the potential for winter upwelling on Mackenzie Shelf may be enhanced if climate warming results in reduced ice thickness and/or ice concentration. Numerical model results show that the stress on the shelf could be reduced because of the internal ice stress from the pack ice over the deep ocean when the ice moves like a rigid body. We found that the model results are not realistic when the ice strength is 5,000 Nm-2. When the ice strength is 27,500 Nm-2, the model results are more realistic. sea ice upswelling southern Beaufort Sea
24	Patronage and ambition : material culture and the English aristocracy in the Late Middle Ages Rock, Vivienne D. January 1998 (has links) No description available. 900
25	Seasonality in the response of sea ice and upwelling to wind forcing in the southern Beaufort Sea Wang, Qiang 05 1900 (has links) The seasonal pattern of ice motion in response to wind forcing and potential consequences to upwelling on the Mackenzie Shelf are considered using satellite-derived ice motion data from the National Snow and Ice Data Center and the NCEP 10 m wind data. The frequency of strong upwelling-favorable alongshore ice motion is high in early winter (November and December) compared to middle and late winter (January to May).For periods when the alongshore component of the wind is upwelling-favorable, the ratio of ice drift divided by wind speed on the Mackenzie Shelf is 0.024 in November and0.008 in March; we conjecture that this ratio decreases as winter progresses because the internal ice stress becomes stronger as both ice thickness and ice concentration increase. This constitutes a possible 10-fold decrease in the seasonal transmission of wind stress to the underlying water from November to March. This ratio in May (0.015) is higher than that in March. We suggest that it is because the internal ice stress becomes weaker as ice concentration decreases on the Mackenzie Shelf in May. Hence, under the same wind forcing, the potential for winter upwelling on Mackenzie Shelf may be enhanced if climate warming results in reduced ice thickness and/or ice concentration. Numerical model results show that the stress on the shelf could be reduced because of the internal ice stress from the pack ice over the deep ocean when the ice moves like a rigid body. We found that the model results are not realistic when the ice strength is 5,000 Nm-2. When the ice strength is 27,500 Nm-2, the model results are more realistic. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate sea ice upswelling southern Beaufort Sea
26	Palynology, thermal maturation, and time temperature history of three oil wells from the Beaufort-Mackenzie Basin Forman, Robert Douglas January 1988 (has links) Palynological and maturation data are combined to reconstruct the burial and thermal history of three oil wells in the Beaufort-Mackenzie Basin. From south to north, the three wells are Netserk F-40, Tarsuit A-25, and Orviiruk 0-03. Each well was examined palynologically and zoned based on species ranges of pollen, spores, fungi, and algal cysts. Using local extinction events of zonally diagnostic species to define the tops of intervals, seven informal palynozones are presented: Laevigatosporites (Pleistocene); ChenopodipoJlis (Pliocene to early Pleistocene); Ericipites (middle to late Miocene); Selenopemphix-1 (middle to late Oligocene); Integricorpus (early Oligocene); Araliaceoipollenites (late Eocene to early Oligocene); Pistillipollenites (middle Eocene). Correlations within the basin indicate that the proposed zonation may be useful for local correlations. Correlations outside the basin indicate that the palynological assemblages from the Beaufort-Mackenzie Basin may not be as isolated and endemic as first thought. A high recovery of algal cysts is attributed to less harsh maceration techniques, and confirms a significant population of cysts from a region in which they were formerly believed to be relatively scarce. The palynology does not exhibit an increase in marine influence with decreasing proximity to the basin margin. Instead it shows a consistent, strong terrestrial influence throughout each well. The large terrestrial discharge from the Mackenzie River is interpreted to have masked the effect of basin proximity on the palynology of the area. The study wells are dominated by terrestrial Type III organic matter. Recycled and terrestrial inert material often make up over 95 % of the residues. These results support a terrestrial source for the offshore oils in the Beaufort -Mackenzie Basin. There is a small but consistent presence of potential oil-generating material throughout each well (amorphous and liptinite). The liptinite is largely composed of pollen grains, spores, and leaf cuticle. Algal cysts are present but less abundant. If the observed amounts of amorphous and liptinite material continue to some depth, where the required level of thermal maturation might be reached, these sediments could act as source rocks for hydrocarbons. The rare occurrence of resinite in the study wells questions the resinite source theory for the hydrocarbons in the basin The sediments in each of the three study wells are immature to total depth, and could not be the source of Tertiary oils in the Beaufort - Mackenzie Basin. The levels of maturity in the wells, and the low maturation gradient calculated for Netserk F-40 (0.07 Ro/km), suggest that thermal maturation will only be achieved at much greater depths. This is most likely due to rapid sedimentation rates in the basin during the Tertiary. By combining the zonations from Chapter 3 with the maturation data from Chapter 4, the burial and thermal history of each study well is reconstructed. Using a modified version of Lopatin's method, paleo-geothermal gradients are calculated for each well. In each case, the gradient that best accountes for the measured maturities is 15 °C/km. The calculated gradient is approximately 1/2 to 1/3 of the present geothermal gradients for the wells. The gradient is in agreement with those previously calculated from similar basins, and is considered responsible for the failure of any of the study wells to encounter effective source rocks. Source rocks of Tertiary oils in the Beaufort-Mackenzie Basin will only exist at greater depths than those encountered in this study. Prospective targets may therefore be located adjacent to sites where vertical migration of hydrocarbons is likely, such as steeply-dipping faults. / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate
27	The Impacts of Environmental and Socio-Economic Costs on Beaufort Sea / Mackenzie Delta Hydrocarbon Development Viability Vansickle, Tracey 08 1900 (has links) <p> Cost data from different marine and pipeline scenarios were analyzed under changing world oil price and discount assumptions to determine a minimum economic scale for Beaufort Sea - Mackenzie Delta hydrocarbon development. Environmental and socio-economic impacts were included to supplement the purely economic analysis. </p> <p> The minimum economic scale project, a sixteen-inch pipeline through the Mackenzie Valley, was found to be marginally economic. When environmental and social costs were assumed to be internalized by the companies involved, and federal government exploration and development incentives disregarded, the minimum scale project was found to yield a negative internal rate of return. </p> / Thesis / Bachelor of Arts (BA) environmental socio-economic beaufort sea mackenzie delta
28	Investigating the effects of climate change and sea level rise on the coastal processes of the Beaufort Sea, Yukon Territory Turner, Jennifer, 1979- January 2004 (has links) No description available. Sea level -- Beaufort Sea. Beaufort Sea Coast (Yukon)
29	Investigating the effects of climate change and sea level rise on the coastal processes of the Beaufort Sea, Yukon Territory Turner, Jennifer, 1979- January 2004 (has links) High latitude areas have been identified in most GCMs as regions where global warming will appear earliest and be the greatest. Since much of Canada's north is underlain by permafrost, a warming of 3-5°C could cause widespread erosion and thermokarst. The Arctic coastal zone is particularly vulnerable, as it lies at the interface between terrestrial systems dominated by permafrost, and marine systems dominated by sea ice and wave action. This study aims at understanding some mechanisms of arctic coastal erosion, such as thermoerosional niches and block failure. The final goal of this research is to identify the areas of Herschel Island, Yukon Territory, which are likely to experience the greatest magnitude of change in the near future. This information is then coupled with a climate change scenario in order to predict future coastal erosion in the area. Sea level -- Beaufort Sea. Beaufort Sea Coast (Yukon)
30	L’invasion du lançon du Pacifique en mer de Beaufort : impacts sur la morue arctique et son écosystème Falardeau-Côté, Marianne 20 April 2018 (has links) Tableau d’honneur de la Faculté des études supérieures et postdoctorales, 2013-2014. / Les changements climatiques en Arctique menacent les espèces polaires hyperspécialisées tout en favorisant l’invasion d’espèces boréales et tempérées. La morue arctique (Boreogadus saida) est l’espèce de poisson fourrage la plus abondante de l’Océan Arctique. En 2011, une espèce boréale a toutefois été détectée dans la mer de Beaufort (Arctique canadien). Le lançon du Pacifique (Ammodytes hexapterus) était alors la deuxième espèce en abondance dans l’assemblage d’ichtyoplancton. La présente recherche visait à évaluer les conséquences de l’invasion de cette espèce fourragère boréale sur la morue arctique durant les jeunes stades de vie. Les deux espèces se sont révélées en compétition potentielle au stade juvénile, mais le lançon sélectionnait surtout de petites proies tandis que la morue arctique dépendait des grands copépodes calanoïdes. La diminution prédite de la taille du zooplancton avantagerait le lançon par rapport à la morue arctique et la compétition détectée pourrait donc s’amplifier avec une augmentation de la population de lançons en mer de Beaufort. / Climate change in the Arctic threatens hyper specialized polar species while favouring the invasion of boreal and temperate fish species. In the arctic marine food web, arctic cod (Boreogadus saida) is the key forage fish species. The boreal Pacific sand lance (Ammodytes hexapterus) was recently detected in southeastern Beaufort Sea (Canadian Arctic), numbering as the second most abundant ichthyoplankton species after the arctic cod in 2011. The aim of this research was to elucidate the consequences of this boreal forage fish species invasion on arctic cod during the early life stages. Potential competition was detected during the early juvenile stage but arctic cod strongly relied on big calanoid copepods while Pacific sand lance significantly selected for smaller prey. The forecasted reduction in the size of zooplankton would therefore favour sand lance over arctic cod. The interspecific competition is predicted to amplify as the abundance of sand lance in the Beaufort Sea increases. QH 302.5 UL 2014 Ammodytes (Poissons) -- Beaufort, Mer de Morue polaire -- Beaufort, Mer de Invasions biologiques marines

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