Bibliographies thématiques / Ontario – Hamilton

Littérature scientifique sur le sujet « Ontario – Hamilton »

Auteur : Grafiati
Publié le 25 juillet 2024
Mis à jour le 26 juillet 2024

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Articles de revues sur le sujet "Ontario – Hamilton"

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Purcell, John. « Hamilton, Ontario ». Raven : A Journal of Vexillology 18 (2011) : 70–71. http://dx.doi.org/10.5840/raven20111838.

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Barker, H. W. « Isolating the Industrial Contribution of PM2.5 in Hamilton and Burlington, Ontario ». Journal of Applied Meteorology and Climatology 52, no 3 (mars 2013) : 660–67. http://dx.doi.org/10.1175/jamc-d-12-0163.1.

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AbstractHourly measurements of particulate matter that is smaller than 2.5 μm in diameter (PM2.5) have been made at air-monitoring sites in Hamilton and Burlington, Ontario, Canada, since 2003. These sites are separated by ~6 km; Burlington is right on Lake Ontario while Hamilton has, directly to the east, very heavy industry between it and Lake Ontario. Hence, by taking the difference between measurements at Hamilton and Burlington, it is possible to isolate, during east-wind conditions, PM2.5 that result from emissions from the industrial sectors (primarily steel mills) located in Hamilton’s northeast end. After screening the data for east winds off Lake Ontario, it was found that median background values of PM2.5, of 5–10 μg m−3 are increased by an additional 5–10 μg m−3 by emissions from local sources. On the contrary, however, industrial contributions to PM2.5 in Burlington during south winds are much smaller at ~3 μg m−3 (industrial sectors are due south of Burlington). This difference is likely due either to wind direction–dependent local circulation patterns or to alignment of sources that can concentrate PM2.5 into Hamilton. It was also found that throughout much of 2009, but especially during spring and early summer, the industrial contribution of PM2.5 at Hamilton was reduced relative to other years by amounts that are statistically significant at the 95% confidence level, even when measurements are augmented with large amounts of Gaussian noise. These reductions are consistent with documented reductions in steel production during the global economic crisis that peaked in the first half of 2009.
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Barica, J., M. N. Charlton, D. J. Poulton et R. Kohli. « Water Exchange Between Lake Ontario and Hamilton Harbour : Water Quality Implications ». Water Quality Research Journal 23, no 2 (1 mai 1988) : 213–26. http://dx.doi.org/10.2166/wqrj.1988.014.

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Abstract Hamilton Harbour is an enclosed body of water situated at the western end of Lake Ontario and containing about 2.8 x 108 m3 of water, polluted by municipal and industrial effluents. It is connected to Lake Ontario by a ship canal, which facilitates a substantial exchange of water between the two water bodies. Exchange of harbour and lake water through the canal reduces the theoretical hydraulic residence time of the harbour and contributes to improvement of the harbour water quality through dilution and oxygenation. Without it, the Hamilton Harbour water quality situation would be more critical. The beneficial effect of dilution by Lake Ontario far exceeds contamination of western Lake Ontario by Hamilton Harbour water.
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Kitchen, Peter, Allison Williams et Dylan Simone. « Measuring Social Capital in Hamilton, Ontario ». Social Indicators Research 108, no 2 (8 mai 2012) : 215–38. http://dx.doi.org/10.1007/s11205-012-0063-3.

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Bain, Alison L. « Neighbourhood artistic disaffiliation in Hamilton, Ontario, Canada ». Urban Studies 54, no 13 (15 juillet 2016) : 2935–54. http://dx.doi.org/10.1177/0042098016658390.

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This article argues that the creative drive of cultural workers to envision alternative urban futures and to make real changes in neighbourhoods in the urban present, while politically powerful and imaginatively seductive to urban decision-makers, contains destructive impulses. Such a drive can challenge, but also reinforce, the established social order and unequal power relations. This article critically examines the spatial politics of creative destruction that can unfold in the place-making wake of cultural workers. A case study is used from the mid-sized, industrial city of Hamilton of a deprived inner-city neighbourhood that is informally being reimagined as an arts district. In this neighbourhood, some cultural workers selectively practice middle-class disaffiliation. Individual acts of avoidance, control and destruction function as withdrawal strategies to help minimise the negative externalities of crime and social disorder and to realise a vision of this neighbourhood in their own image.
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Editorial Office, CUAJ. « Laparoscopic Urology Fellowship, McMaster University, Hamilton, Ontario ». Canadian Urological Association Journal 7, no 7-8 (19 août 2013) : 286. http://dx.doi.org/10.5489/cuaj.1607.

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Lobo, D., C. DeBenedet, C. Fehlner-Gardiner, SA Nadin-Davis, MEC Anderson, T. Buchanan, K. Middel, C. Filejski et J. Hopkins. « Épidémie de rage du raton laveur à Hamilton, en Ontario : rapport sur l’évolution du cas ». Relevé des maladies transmissibles au Canada 44, no 5 (3 mai 2018) : 130–36. http://dx.doi.org/10.14745/ccdr.v44i05a05f.

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Ho, K. M., W. L. Seaman, T. M. Choo et R. A. Martin. « AC Hamilton barley ». Canadian Journal of Plant Science 75, no 3 (1 juillet 1995) : 697–98. http://dx.doi.org/10.4141/cjps95-118.

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AC Hamilton is a six-rowed spring feed barley (Hordeum vulgare L.) cultivar bred at the Plant Research Centre, Agriculture and Agri-Food Canada, and evaluated by the Eastern Canada Barley Breeding Group. It was selected from a Leger/OAC Kippen cross and is suitable for growing in Ontario, where it outyielded the check cultivars AC Stephen and Chapais. AC Hamilton is moderately resistant to powdery mildew (Erysiphe graminis f. sp. hordei) and is resistant to septoria leaf blotch (Septoria passerinii). Key words:Hordeum vulgare L., six-rowed barley, feed barley, high yield, powdery mildew
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Fox, M. E., R. M. Khan et P. A. Thiessen. « Loadings of PCBs and PAHs from Hamilton Harbour to Lake Ontario ». Water Quality Research Journal 31, no 3 (1 août 1996) : 593–608. http://dx.doi.org/10.2166/wqrj.1996.033.

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Abstract Large-volume water samples were collected from the ship canal connecting Hamilton Harbour and Lake Ontario while detailed simultaneous measurements of water speed and direction were made. The 10-day sampling period in July 1989 and a 14-day sampling period in March 1991 were considered representative of typical stratified summer and unstratified winter flow regimes. The water samples were analysed for PCBs and PAHs, which are known major organic contaminants in Hamilton Harbour. Supporting physicochemical measurements were also made. The water movement data were combined with the contaminant concentrations and the uniform channel dimensions to calculate annual loadings of 2.8 kg/ year PCBs and 37.5 kg/ year PAHs from Hamilton Harbour to Lake Ontario. These estimates were compared to other published estimates of loadings of these compounds from Hamilton Harbour and also from the atmosphere and the Niagara River. It was concluded that Hamilton Harbour is not a significant source of these compounds in comparison to the atmosphere and the Niagara River. The PAH export estimate was found to be small when compared to in situ sediment burdens of PAHs and also present day discharges to the harbour.
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Sussman, Gordon L., Gary M. Liss et Susan Wasserman. « Update on the Hamilton, Ontario latex sensitization study ». Journal of Allergy and Clinical Immunology 102, no 2 (août 1998) : 333. http://dx.doi.org/10.1016/s0091-6749(98)70110-1.

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Thèses sur le sujet "Ontario – Hamilton"

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Wilson, Tyler. « Urban Renewal Investment : : A CASE STUDY OF HAMILTON, ONTARIO ». Thesis, KTH, Fastigheter och byggande, 2016. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-195842.

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Urban Renewal activity can be attributed to the reuse and intensification of tertiary areas. Past research suggests areas of regeneration can perform at par and/or better then prime property sectors. Policy initiatives lowering perceived risk, attracting investment is conditional to the unique characteristics of renewal areas. As a progressive area of research there still remains insufficient data to quantify related returns and associated risks. Financial institutions tend to favor prime property and neglect tertiary areas. Local, smaller developers can comprehend the holistic nature of renewal investment. A comparative analysis of past urban renewal investment behavior with actors of renewal investment in Hamilton, Ontario, Canada, were evaluated leading to empirical possibilities of investment alternatives.
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Roy, Réal 1963. « Methane metabolism and nitrogen cycling in freshwater sediment of a polluted ecosystem : Hamilton Harbour (Canada) ». Thesis, McGill University, 1995. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=39990.

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Environmental regulation of nitrogen cycling processes, denitrification and nitrification, was studied in sediment of Hamilton Harbour, with particular emphasis on the role of CH$ sb4$ metabolism (production and consumption). Through extensive sediment sampling and numerical analysis, it was found that particulate carbon was the best predictor of potential for anaerobic production of CH$ sb4$ and CO$ sb2$. The only predictor of denitrification capacity was anaerobic CO$ sb2$ production, indicating that beside NO$ sb3 sp-$ and O$ sb2$, a biotic factor involved in carbon metabolism may be important in the control of this activity.
Suppression of aerobic N$ sb2$O production in sediment slurries by C$ rm sb2H sb2$ and correlation with NO$ sb3$-production indicated that it was dependent on chemolithotrophic nitrification. Although CH$ sb4$ (1 to 24 $ mu$M) stimulated production of NO$ sb3 sp-$ and N$ sb2$O, we found that CH$ sb4$ at 84 $ mu$M or greater suppressed nitrification. Following extensive studies of pore water chemistry, potential microbial activities, and counts of nitrifiers and methanotrophs, we found that CH$ sb4$ oxidation (i) is more likely to suppress nitrification by competition for O$ sb2$ and NH$ sb4 sp+$ between methanotrophs and nitrifiers, and (ii) may be more important than nitrification as a sink of hypolimnetic O$ sb2$ in Hamilton Harbour.
Amongst a number of inhibitors, allylsulfide was found to be a differential inhibitor with much less effect on CH$ sb4$ oxidation in sediment slurries or in axenic cultures of Methylosinus trichosporium OB3b than on nitrification in sediment slurries.
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Annau, Catherine. « Canada's first birth control clinic : the Birth Control Society of Hamilton, 1931-1940 ». Thesis, McGill University, 1992. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=61288.

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This thesis examines the formative years (1931-1940) of Canada's first birth control clinic, the Birth Control Society of Hamilton (BCSH). The focus of this work is to place the activities of the BCSH in an international and national context. Canada's first birth control clinic drew directly on the writings and experience of two well known birth control pioneers, the American Margaret Sanger and the English woman Marie Stopes. This reliance on foreign models demonstrates the enormous influence that the British and Americans had on the formation of Canadian social and medical institutions. This thesis also challenges the traditional perception of the BCSH as a low key and non-ideological endeavour. New historical evidence indicates that the BCSH shared in the eugenic ideology of other contemporary Canadian birth control organizations and was an active participant in the debates surrounding contraception and eugenics.
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Addison, George Nelson. « Life and culture of three blue collar churches in Hamilton, Ontario, 1875-1925 ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1999. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp03/MQ37934.pdf.

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Sarnecki, Candice. « Office location patterns, a comparison of office location patterns in London and Hamilton Ontario to the model of Toronto Ontario ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape11/PQDD_0019/MQ52655.pdf.

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Roberts, Allison Jilayne. « Brownfield remediation in Kingston and Hamilton, Ontario : a virtuous cycle of civil society involvement ». Kingston, Ont. : [s.n.], 2009. http://hdl.handle.net/1974/1798.

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Stoklosar, Scott Andrew. « Influence of constructed shoreline and islands on nearshore fish community structure in Hamilton Harbour, Ontario ». Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/mq21704.pdf.

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Maoh, Hanna Francis. « Modeling firm demography in urban areas with an application to Hamilton, Ontario : towards an agent-based microsimulation model / ». *McMaster only, 2005.

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Woldemichael, Michael Haile. « The Mineralogical Composition of House Dust in Ontario, Canada ». Thesis, Université d'Ottawa / University of Ottawa, 2012. http://hdl.handle.net/10393/20664.

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Despite increasing concern about the presence of heavy metals, pesticides and other toxins in indoor environments, very little is known about the physical and chemical composition of ordinary household dust. This study represents the first systematic investigation of the mineralogical composition of indoor dust in residential housing in Canada. Specimens of dust were obtained from homes in six geographically separate cities in the Province of Ontario: two located on the metamorphic and igneous rocks of the Precambrian Canadian Shield (Thunder Bay and Sudbury), the other four located on Palaeozoic limestone and shale dominated bedrock (Barrie, Burlington, Cambridge, and Hamilton). Forty samples of household vacuum dust were obtained. The coarse fraction (80 – 300 µm) of this dust was subjected to flotation (using water) to separate the organic components (e.g. insect fragments, dander), natural and synthetic materials (e.g. fibres, plastics) from the mineral residue. The mineral fraction was then analyzed using quantitative point counting, polarizing light microscopy, powder X-ray diffraction and scanning electron microscopy methods. Despite the great distances between the sampling localities and the distinct differences in bedrock geology, the mineral fraction of dust from all six cities is remarkably similar and dominated by quartz and feldspar, followed by lithic fragments, calcite, and amphibole. Some evidence of the influence of local geology can nevertheless be found. For example, a relatively higher proportion of sulphide minerals is observed in the two cities on the Canadian Shield where these minerals are clearly more abundant in the bedrock. Specimens from Sudbury, Canada’s largest mining centre located atop a nickel-sulphide mineral deposit, showed the highest sulphide contents. Quartz is the dominant mineral in all cities. All quartz grains have internal strain features and fluid inclusions that are indicative of a metamorphic-igneous provenance. In all cities, sand is used on the streets as an abrasive for traction during the icy winter season. This sand is obtained in all cases from local glaciofluvial deposits that were ultimately derived principally from the rocks of the Canadian Shield in the last Pleistocene glaciations that affected all of Ontario. Thus, tracking in sand is the most plausible mechanism by which quartz was introduced into these homes since sampling was done, in all cases, in the winter season. The results indicate that glacial deposits dominate the mineral composition of indoor dust in Ontario cities and that nature of the bedrock immediately underlying the sampling sites is relatively of minor importance.
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Dadson, Leland Thomas. « Instrumental Matrix : Regenerative Systems in Hamilton, Ontario ». Thesis, 2005. http://hdl.handle.net/10012/2684.

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Positioned at the metaphysical divide between civilization and wilderness, this thesis investigates the potential for symbiotic relationships among cultural, ecological and industrial systems in an effort to suggest alternative modes for human sustainability. The City of Hamilton, where steel and iron industries continue to scar the landscape, serves as the location for a speculative design intervention. Amongst existing urban structures, a hybrid form of industrial production is proposed to acknowledge society’s reliance on artificial devices. In turn, this hybrid form is integrated with natural ecological processes to demonstrate humanity’s dependence on the natural world. The first chapter positions the thesis within a discourse regarding the boundary between civilization and wilderness and their conventional dichotomy. The thesis is aligned to themes of ecological-artificial hybridization, which include the scientific application of biological metaphors, economic and manufacturing theories of industrial ecology, and architectural and design methodology. Chapter two employs Complex Systems methodology to structure an analysis of Hamilton’s ‘intrinsic’ and ‘extrinsic’ systems. The city is considered within ecological, historical, cultural, industrial and economic contexts, at local and regional scales. Chapter three proposes an urban plan for Hamilton that seeks to regenerate and integrate ecological, cultural and industrial systems. Within the framework of this plan, industrial ecosystems can coexist with public function and ecological infrastructure in close proximity. Though designed for long term application, the plan is intended to provide context for a more detailed and immediate intervention within the scope of the thesis. Chapter four proposes the implementation of a speculative urban design, as a central component of the urban plan. Sited on the Stelco pier, one of the largest and oldest steel producers in Canada, the design would reclaim a pivotal historical and physical location along the Hamilton waterfront. Regeneration of the heavily contaminated industrial site will be initiated with a phased program of remediation and managed ecological succession. The new science of industrial ecology will inform this new development. This approach is based on a shift from ‘open loop’ systems, in which material and energy flows dissipate through processes of waste creation, towards ‘closed loop’ systems in which energy and material are recycled. A new Instrumental Matrix is proposed where decentralized cultural, ecological and industrial systems are interwoven to create diverse and sustainable habitats for wildlife, people and industry.
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Livres sur le sujet "Ontario – Hamilton"

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Margaret, Houghton, dir. Hamilton street names. Toronto : James Lorimer, 2002.

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Burkholder United Church (Hamilton, Ont.), dir. Burkholder United Church, Hamilton, Ontario, 2003. [Hamilton : the Church], 2003.

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Club, Royal Hamilton Yacht. By-laws of the Royal Hamilton Yacht Club of Hamilton, Ontario. [Hamilton, Ont. ? : s.n.], 1986.

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Wood, Vallance &. Company. Wood, Vallance & Co., hardware merchants, Hamilton, Ontario. [Hamilton, Ont. ? : Wood, Vallance & Co., 1994.

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Service, Ontario Health Studies. Mortality among employees of Slater Steels, Hamilton Specialty Bar Division, Hamilton, Ontario. [Toronto] : Health Studies Service, Ontario Ministry of Health, 1988.

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Buchanan, W. Watson. Scottish immigrants in Hamilton, Ontario, Canada : Their onomastic legacy. Toronto, ON : Pro Familia Pub., 2005.

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Buchanan, W. Watson. Scottish immigrants in Hamilton, Ontario, Canada : Their onomastic legacy. Toronto : Pro Familia Pub., 2004.

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Ontario Curling Club of Hamilton. Constitution of the Ontario Curling Club of Hamilton. [Hamilton, Ont. ? : s.n.], 1987.

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McIlveen, W. D. Phytotoxicology investigation in the vicinity of Hamilton Brick, Hamilton, Ontario, September 9, 1991. [Toronto] : Ontario Environment, 1992.

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Lisson, Paul. Pointed Portraits : A Photo Documentary From Hamilton Ontario. Hamilton : The Umberto Ricci Art Foundation, 1993.

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Chapitres de livres sur le sujet "Ontario – Hamilton"

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Eyles, John. « Vision 2020 : Hamilton and Wentworth County, Ontario ». Dans Encyclopedia of Quality of Life and Well-Being Research, 6947–50. Dordrecht : Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-0753-5_3164.

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Eyles, John. « Vision 2020 : Hamilton and Wentworth County, Ontario ». Dans Encyclopedia of Quality of Life and Well-Being Research, 7530–33. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-17299-1_3164.

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Halfon, Efraim. « Volume Visualization of Water Quality Data in Hamilton Harbour, Lake Ontario ». Dans Environmental Software Systems, 278–86. Boston, MA : Springer US, 1996. http://dx.doi.org/10.1007/978-0-387-34951-0_25.

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Yang, Jing-Rong, et Hamish C. Duthie. « Morphology and ultrastructure of teratological forms of the diatoms Stephanodiscus niagarae and S. parvus (Bacillariophyceae) from Hamilton Harbour (Lake Ontario, Canada) ». Dans Twelfth International Diatom Symposium, 57–66. Dordrecht : Springer Netherlands, 1993. http://dx.doi.org/10.1007/978-94-017-3622-0_7.

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« 10. Hamilton and Area Hamilton-Wentworth Region, Brant County, and Adjacent Areas ». Dans A Bird-Finding Guide to Ontario. Toronto : University of Toronto Press, 1995. http://dx.doi.org/10.3138/9781442671423-012.

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« Hamilton and Wentworth County, Ontario, Canada, Sustainable City Plan ». Dans Encyclopedia of Quality of Life and Well-Being Research, 2637. Dordrecht : Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-007-0753-5_101680.

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« Hamilton and Wentworth County, Ontario, Canada, Sustainable City Plan ». Dans Encyclopedia of Quality of Life and Well-Being Research, 2896. Cham : Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-17299-1_301801.

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McCarthy, D. P., B. Craig et U. Brand. « Chapter 10 Lichen Monitoring of Urban Air Quality, Hamilton, Ontario ». Dans Air Quality and Ecological Impacts : Relating Sources to Effects, 247–67. Elsevier, 2009. http://dx.doi.org/10.1016/s1474-8177(08)00210-6.

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« Nouveaux Changements En Ontario : Ottawa, Hamilton, Sudbury Et Toronto (Encore) ». Dans La Frénésie des fusions, 159–81. McGill-Queen's University Press, 2000. http://dx.doi.org/10.1515/9780773569065-008.

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« More Change in Ontario : Ottawa, Hamilton, Sudbury, and Toronto (Again) ». Dans Merger Mania, 141–59. McGill-Queen's University Press, 2000. http://dx.doi.org/10.1515/9780773568914-009.

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Actes de conférences sur le sujet "Ontario – Hamilton"

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Pozza, Matthew R., Joseph I. Boyce et William A. Morris. « Lake‐Based Magnetic Mapping of Contaminated Sediments, Hamilton Harbour, Ontario, Canada ». Dans Symposium on the Application of Geophysics to Engineering and Environmental Problems 2002. Environment and Engineering Geophysical Society, 2002. http://dx.doi.org/10.4133/1.2927155.

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Wang, Qian, Keith W. Hipel et D. Marc Kilgour. « Conflict analysis in brownfield redevelopment : The ERASE program in Hamilton, Ontario ». Dans 2008 IEEE International Conference on Systems, Man and Cybernetics (SMC). IEEE, 2008. http://dx.doi.org/10.1109/icsmc.2008.4811740.

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R. Pozza, Matthew, Joseph I. Boyce et William A. Morris. « Lake-Based Magnetic Mapping Of Contaminated Sediments, Hamilton Harbour, Ontario, Canada ». Dans 15th EEGS Symposium on the Application of Geophysics to Engineering and Environmental Problems. European Association of Geoscientists & Engineers, 2002. http://dx.doi.org/10.3997/2214-4609-pdb.191.p17.

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O’Neill, Simon T. « Full Load Development Testing of a 41MW Single Shaft Generator Drive Gas Turbine ». Dans ASME 1986 International Gas Turbine Conference and Exhibit. American Society of Mechanical Engineers, 1986. http://dx.doi.org/10.1115/86-gt-69.

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This paper describes the full load development testing of the CW251B10 gas turbine at the Westinghouse Canada gas turbine test facility in Hamilton, Ontario. The test instrumentation and data acquisition system are detailed together with the nature of the tests performed.
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Eyles, J., K. Wilson, S. Keller-Olaman et S. Elliott. « Community in the city ? Social exclusion in neighbourhoods in Hamilton, Ontario, Canada ». Dans SUSTAINABLE CITY 2006. Southampton, UK : WIT Press, 2006. http://dx.doi.org/10.2495/sc060701.

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Weiland, Lelia, Rebecca E. Lee et Carolyn H. Eyles. « CREATION OF A VIRTUAL FIELD EXPERIENCE OF THE NIAGARA ESCARPMENT IN HAMILTON, ONTARIO, CANADA ». Dans GSA Annual Meeting in Phoenix, Arizona, USA - 2019. Geological Society of America, 2019. http://dx.doi.org/10.1130/abs/2019am-338639.

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Lee, Rebecca E., John C. Maclachlan et Carolyn H. Eyles. « DETERMINING THE APPLICABILITY OF CHANGE DETECTION FOR QUANTIFICATION OF EROSION ON THE NIAGARA ESCARPMENT, HAMILTON, ONTARIO, CANADA ». Dans GSA 2020 Connects Online. Geological Society of America, 2020. http://dx.doi.org/10.1130/abs/2020am-358591.

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Weiland, Lelia, Rebecca E. Lee, Rodrigo A. Narro Perez et Carolyn H. Eyles. « INVESTIGATION OF THE INFLUENCE OF LITHOLOGICAL VARIABILITY ON EROSION OF THE NIAGARA ESCARPMENT IN HAMILTON, ONTARIO, CANADA ». Dans GSA Annual Meeting in Phoenix, Arizona, USA - 2019. Geological Society of America, 2019. http://dx.doi.org/10.1130/abs/2019am-338696.

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Lee, Rebecca E., Carolyn H. Eyles, Rodrigo A. Narro Perez et John C. Maclachlan. « UTILIZING PHOTOGRAMMETRY TO ANALYZE VARIATION IN THE LITHOLOGY AND STRUCTURE OF THE NIAGARA ESCARPMENT IN HAMILTON, ONTARIO, CANADA ». Dans GSA Annual Meeting in Indianapolis, Indiana, USA - 2018. Geological Society of America, 2018. http://dx.doi.org/10.1130/abs/2018am-322235.

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Mermigas, Konstantinos Kris, Martin Krall et Chris Parsons. « Burlington Bay Skyway Hanger Fail-Safe System ». Dans IABSE Congress, New York, New York 2019 : The Evolving Metropolis. Zurich, Switzerland : International Association for Bridge and Structural Engineering (IABSE), 2019. http://dx.doi.org/10.2749/newyork.2019.2720.

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<p>The Burlington Bay Skyway was built in 1954 and rehabilitated in the 1980s. A continuous three span truss rises from below the deck up over the roadway across the 151 m central span over a navigational channel into Hamilton Harbour. The deck system hangs from the truss and the consequences of a hanger impact could be severe and include prolonged closure, impediment of the navigation channel, and could trigger a progressive collapse of the suspended deck system arising from simply supported stringers and floor trusses. The regional economic impact of bridge closure on one of Ontario’s major arteries is considerable.</p><p>The Ontario Ministry of Transportation (MTO) is adding redundancy trusses to transfer the load from the deck system to adjacent hangers in the event of hanger loss. Each truss runs longitudinally below the edge of the deck through the main span, within the depth of the existing transverse floor trusses. The proactive retrofit improves redundancy of the deck system and keeps the bridge serviceable and safe after hanger loss, in-line with current code requirements.</p>
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Rapports d'organisations sur le sujet "Ontario – Hamilton"

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Bélanger, J. R., et F. Morin. Urban geology database of Hamilton, Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1995. http://dx.doi.org/10.4095/203270.

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Kiss, F., et M. Coyle. Aeromagnetic residual total field survey, Hamilton, Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 2000. http://dx.doi.org/10.4095/211413.

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Amos, C. L., et I. Droppo. The stability of remediated lakebed sediment, Hamilton harbour, Lake Ontario, Canada. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1996. http://dx.doi.org/10.4095/208178.

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Copeland, M. J. Middle Devonian (Givetian, Hamilton Group) Ostracoda in two diamond drill cores from Lambton County, southwestern Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1999. http://dx.doi.org/10.4095/210869.

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Stall, Nathan M., Kevin A. Brown, Antonina Maltsev, Aaron Jones, Andrew P. Costa, Vanessa Allen, Adalsteinn D. Brown et al. COVID-19 and Ontario’s Long-Term Care Homes. Ontario COVID-19 Science Advisory Table, janvier 2021. http://dx.doi.org/10.47326/ocsat.2021.02.07.1.0.

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Key Message Ontario long-term care (LTC) home residents have experienced disproportionately high morbidity and mortality, both from COVID-19 and from the conditions associated with the COVID-19 pandemic. There are several measures that could be effective in preventing COVID-19 outbreaks, hospitalizations, and deaths in Ontario’s LTC homes, if implemented. First, temporary staffing could be minimized by improving staff working conditions. Second, homes could be further decrowded by a continued disallowance of three- and four-resident rooms and additional temporary housing for the most crowded homes. Third, the risk of SARS-CoV-2 infection in staff could be minimized by approaches that reduce the risk of transmission in communities with a high burden of COVID-19. Summary Background The Province of Ontario has 626 licensed LTC homes and 77,257 long-stay beds; 58% of homes are privately owned, 24% are non-profit/charitable, 16% are municipal. LTC homes were strongly affected during Ontario’s first and second waves of the COVID-19 pandemic. Questions What do we know about the first and second waves of COVID-19 in Ontario LTC homes? Which risk factors are associated with COVID-19 outbreaks in Ontario LTC homes and the extent and death rates associated with outbreaks? What has been the impact of the COVID-19 pandemic on the general health and wellbeing of LTC residents? How has the existing Ontario evidence on COVID-19 in LTC settings been used to support public health interventions and policy changes in these settings? What are the further measures that could be effective in preventing COVID-19 outbreaks, hospitalizations, and deaths in Ontario’s LTC homes? Findings As of January 14, 2021, a total of 3,211 Ontario LTC home residents have died of COVID-19, totaling 60.7% of all 5,289 COVID-19 deaths in Ontario to date. There have now been more cumulative LTC home outbreaks during the second wave as compared with the first wave. The infection and death rates among LTC residents have been lower during the second wave, as compared with the first wave, and a greater number of LTC outbreaks have involved only staff infections. The growth rate of SARS-CoV-2 infections among LTC residents was slower during the first two months of the second wave in September and October 2020, as compared with the first wave. However, the growth rate after the two-month mark is comparatively faster during the second wave. The majority of second wave infections and deaths in LTC homes have occurred between December 1, 2020, and January 14, 2021 (most recent date of data extraction prior to publication). This highlights the recent intensification of the COVID-19 pandemic in LTC homes that has mirrored the recent increase in community transmission of SARS-CoV-2 across Ontario. Evidence from Ontario demonstrates that the risk factors for SARS-CoV-2 outbreaks and subsequent deaths in LTC are distinct from the risk factors for outbreaks and deaths in the community (Figure 1). The most important risk factors for whether a LTC home will experience an outbreak is the daily incidence of SARS-CoV-2 infections in the communities surrounding the home and the occurrence of staff infections. The most important risk factors for the magnitude of an outbreak and the number of resulting resident deaths are older design, chain ownership, and crowding. Figure 1. Anatomy of Outbreaks and Spread of COVID-19 in LTC Homes and Among Residents Figure from Peter Hamilton, personal communication. Many Ontario LTC home residents have experienced severe and potentially irreversible physical, cognitive, psychological, and functional declines as a result of precautionary public health interventions imposed on homes, such as limiting access to general visitors and essential caregivers, resident absences, and group activities. There has also been an increase in the prescribing of psychoactive drugs to Ontario LTC residents. The accumulating evidence on COVID-19 in Ontario’s LTC homes has been leveraged in several ways to support public health interventions and policy during the pandemic. Ontario evidence showed that SARS-CoV-2 infections among LTC staff was associated with subsequent COVID-19 deaths among LTC residents, which motivated a public order to restrict LTC staff from working in more than one LTC home in the first wave. Emerging Ontario evidence on risk factors for LTC home outbreaks and deaths has been incorporated into provincial pandemic surveillance tools. Public health directives now attempt to limit crowding in LTC homes by restricting occupancy to two residents per room. The LTC visitor policy was also revised to designate a maximum of two essential caregivers who can visit residents without time limits, including when a home is experiencing an outbreak. Several further measures could be effective in preventing COVID-19 outbreaks, hospitalizations, and deaths in Ontario’s LTC homes. First, temporary staffing could be minimized by improving staff working conditions. Second, the risk of SARS-CoV-2 infection in staff could be minimized by measures that reduce the risk of transmission in communities with a high burden of COVID-19. Third, LTC homes could be further decrowded by a continued disallowance of three- and four-resident rooms and additional temporary housing for the most crowded homes. Other important issues include improved prevention and detection of SARS-CoV-2 infection in LTC staff, enhanced infection prevention and control (IPAC) capacity within the LTC homes, a more balanced and nuanced approach to public health measures and IPAC strategies in LTC homes, strategies to promote vaccine acceptance amongst residents and staff, and further improving data collection on LTC homes, residents, staff, visitors and essential caregivers for the duration of the COVID-19 pandemic. Interpretation Comparisons of the first and second waves of the COVID-19 pandemic in the LTC setting reveal improvement in some but not all epidemiological indicators. Despite this, the second wave is now intensifying within LTC homes and without action we will likely experience a substantial additional loss of life before the widespread administration and time-dependent maximal effectiveness of COVID-19 vaccines. The predictors of outbreaks, the spread of infection, and deaths in Ontario’s LTC homes are well documented and have remained unchanged between the first and the second wave. Some of the evidence on COVID-19 in Ontario’s LTC homes has been effectively leveraged to support public health interventions and policies. Several further measures, if implemented, have the potential to prevent additional LTC home COVID-19 outbreaks and deaths.
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Aeromagnetic total field map, Hamilton-Burlington, Lake Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1987. http://dx.doi.org/10.4095/123146.

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