Relevant bibliographies by topics / Ontario

Academic literature on the topic 'Ontario'

Author: Grafiati
Published: 4 June 2021
Last updated: 30 July 2024

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Journal articles on the topic "Ontario"

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Turk*, James L. "Universities, the Charter, Doug Ford, and Campus Free Speech." Constitutional Forum / Forum constitutionnel 29, no. 2 (April 3, 2020): 31–44. http://dx.doi.org/10.21991/cf29398.

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On a warm summer day at the end of August 2018, Ontario Premier Doug Ford’s office issued a press release announcing, “Ontario’s Government for the People is delivering on its promise to uphold free speech on every Ontario publicly-funded university and college campus.”1 An accompanying “Backgrounder” spelled out the details.2 Although this policy seems progressive on its face, it is actually anything but. That said, it may have the unintended but beneficial effect of bringing Ontario universities under the Canadian Charter of Rights and Freedoms.3 More about that later. First, the problems. * Distinguished Visiting Scholar and Director, Centre for Free Expression. Faculty of Communications & Design, Ryerson University.1 Office of the Premier, News Release: “Ontario Protects Free Speech on Campuses: Mandates Universities and Colleges to Introduce Free Speech Policy by January 1, 2019” (30 August 2018), online: Government of Ontario <news.ontario.ca/opo/en/2018/08/ontario-protects-free-speech-on-campuses.html> [Office of the Premier, “Ontario Protects”].2 See Office of the Premier, Backgrounder “Upholding Free Speech on Ontario’s University and College Campuses” (30 August 2018), online: Government of Ontario <news.ontario.ca/opo/en/2018/08/upholdingfree-speech-on-ontarios-university-and-college-campuses.html> [Office of the Premier, “Upholding Free Speech”].
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Wilkinson, Christopher J. A. "An examination of recovery planning for forest-dwelling woodland caribou (Rangifer tarandus caribou) in Ontario, Canada." Rangifer 28, no. 1 (April 1, 2008): 13. http://dx.doi.org/10.7557/2.28.1.147.

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Ontario’s population of forest-dwelling woodland caribou is listed both federally and provincially as a species at risk. It is estimated that 20 000 woodland caribou remain in Ontario, of which approximately one quarter inhabit the boreal forest and are described as the sedentary forest-dwelling population. This paper examines the recovery strategy for this population developed by the Ministry of Natural Resources, as well as discussing the implications of provincial forestry policy on woodland caribou management. Commercial timber harvesting will likely soon be allowed in parts of the northern third of the province, in which woodland caribou habitat currently is relatively unimpaired by industrial development. Abstract in Norwegian / Sammendrag:Planlegging for bevaring av skogsøkotypen av Rangifer tarandus caribou i Ontario, CanadaSkogsvillreinen av skogsøkotypen i Ontario er vurdert som sårbar både føderalt og på provinsnivå. Av provinsens rundt 20 000 skogsvillrein hører omtrent en fjerdepart til den stasjonære skogsboende skogsøkoypen. Artikkelen ser på bevaringsstrategien som er utarbeidet av naturressursdepartementet i Ontario for denne spesielle bestanden og diskuterer konsekvensene for villreinen av provinsens skogpolitikk. Kommersiell hogst vil mest sannsynlig og snart bli tillatt i deler av Ontarios nordlige tredel der skogvillreinens leveområder er relativt upåvirket av industriell virksomhet.
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Neary, Peter. "“Terrific weight of rock above me”." Ontario History 114, no. 2 (September 13, 2022): 143–64. http://dx.doi.org/10.7202/1092216ar.

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Alan Caswell Collier (1911-1990) was a major Ontario landscape artist of the twentieth century and, in the 1940s and 1950s, advanced his career through depictions of mines and miners, having himself worked underground in Northern Ontario during the Great Depression. His 1968 commissioned picture, Mining in Ontario, is now part of the art collection at the Macdonald Block, Queen’s Park. Collier’s voluminous papers are in the archives of Queen’s University and this paper is based on extensive research in this collection, a major source for scholars of Ontario’s art history. Mining was a leading industrial activity in the province in the twentieth century, and Collier was at the fore in representing its development artistically. He was at once an uncommon but ordinary Ontarian – uncommon in his talent but in many other respects an Anglo-Canadian everyman: he lived in relief camps and bunkhouses in the 1930s, served in uniform in the 1940s, and moved to Toronto suburbia in the 1950s. His mining art recalls an expansive boom period in the history of Ontario industry.
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Mascher, Peter. "(Invited) Nano Ontario - A Model for Regional Cooperation in Nanotechnology." ECS Meeting Abstracts MA2022-01, no. 7 (July 7, 2022): 619. http://dx.doi.org/10.1149/ma2022-017619mtgabs.

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Nano Ontario is a not-for-profit corporation representing the interests of academic, industrial, government and financial community members in the development of nanotechnologies in Ontario, Canada. Members work together to raise the profile, increase the research, build the investment and drive economic returns from nanotechnology in the province and across Canada. In this presentation I will discuss how this multi-sector cooperation serves to achieve the following main objectives: Be a trusted source of information for all nanoscience and nanotechnology activity in Ontario; Advise government organizations on economic opportunity, policy, standards & regulations that nanotechnology can offer, to enable Ontario to benefit and capitalize from its nano research, development, and commercial capacity; Map Ontario’s capacity in nanotechnology research, development, and commercialization; Serve as the main point of contact for Ontario’s community of practice in nanoscience & nanotechnology; Build and facilitate new connections between nanotechnology groups in universities, government organizations and industries within Ontario, across Canada, and internationally; and Coordinate public outreach activities to advocate the societal benefits enabled by nanoscience and nanotechnology.
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Ellis, Lara. "Ontario's provincial parks and protected areas: Challenges and opportunities in ensuring ecological integrity and representation." Forestry Chronicle 73, no. 6 (December 1, 1997): 727–30. http://dx.doi.org/10.5558/tfc73727-6.

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Among the actions needed to conserve biodiversity in Ontario is the completion of a network of protected areas. The Ontario Government committed to completing Ontario's protected areas network in order to conserve biodiversity in 1989. The provincial government announced, in February 1997, a land-use planning process that "will be used for making decisions on natural heritage protection" (Ontario Ministry of Natural Resources 1997). A framework and action plan on protected areas was publicly released by the Ontario Ministry of Natural Resources (OMNR) after this announcement. This document and a recent gap analysis report employing the program's methodology indicate that the approach being taken by OMNR in terms of protecting representative areas may fall short of the criteria put forth by World Wildlife Fund Canada, the Wildlands League, and other Endangered Spaces Campaign partners. Key words: Biodiversity, park management, Ontario, natural heritage protection
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Lucas, Jack. "How Hydro Ontario Went Local: The Creation of Local Districts and the Ontario Central System." Scientia Canadensis 37, no. 1-2 (May 20, 2015): 59–76. http://dx.doi.org/10.7202/1030640ar.

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When Ontario Hydro was created, its task was to distribute electricity to local hydro commissions across Ontario. By the 1920s, however, it had become a local distributor itself, providing direct service to thousands of customers across the province. This essay examines the two major events that brought Ontario Hydro into local distribution during this period: the creation of the Central Ontario System in 1916 and the Rural Power District in 1920. This essay draws on previously unexplored archival sources to argue that the two processes were quite separate from one another, and that only one – the Rural Power District – left a lasting institutional legacy in Ontario’s electricity sector. Both developments, however, reveal the “flexibility” of local political autonomy in Ontario – the cultural and political limits of appeals to local autonomy in the face of economic risk and opportunity and technological change.
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Hoag, Hannah. "Ontario." Nature 434, no. 7033 (March 2005): 676–77. http://dx.doi.org/10.1038/nj7033-676a.

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van Dijk, Adam, Don McGuinness, Elizabeth Rolland, and Kieran M. Moore. "Can Telehealth Ontario respiratory call volume be used as a proxy for emergency department respiratory visit surveillance by public health?" CJEM 10, no. 01 (January 2008): 18–24. http://dx.doi.org/10.1017/s1481803500009969.

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ABSTRACTObjective:There is a paucity of information regarding the usefulness of non-traditional data streams for real-time syndromic surveillance systems. The objective of this paper is to examine the temporal relation between Ontario's emergency department (ED) visits and telephone health line (Telehealth) call volume for respiratory illnesses to test the feasibility of using Ontario's Telehealth system for real-time surveillance.Methods:Retrospective time-series data from the National Ambulatory Care Reporting System (NACRS) and the Telehealth Ontario program from June 1, 2004, to March 31, 2006, were analyzed. The added value of Telehealth Ontario data was determined by comparing it temporally with NACRS data, which uses the International Classification of Diseases (ICD) 10-Canadian Enhancement coding system for discharge diagnoses.Results:Telehealth Ontario had 216 105 calls for respiratory complaints, while 819 832 ICD-coded complaints from NACRS were identified with a comparable diagnosis of respiratory illness. Telehealth Ontario call volume was heavily weighted for the 0–4 years age group (49%), while the NACRS visits were mainly from those 18–64 years old (44%). The Spearman rank correlation coefficient was calculated to be 0.97, with the time-series analysis also resulting in significant correlations at lags (semi-monthly) 0 and 1, indicating that increases in Telehealth Ontario call volume correlate with increases in NACRS discharge diagnosis data for respiratory illnesses.Conclusion:Telehealth Ontario call volume fluctuation reflects directly on ED respiratory visit data on a provincial basis. These call complaints are a timely, useful and representative data stream that shows promise for integration into a real-time syndromic surveillance system.
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Forsyth, D. A., B. Milkereit, C. A. Zelt, D. J. White, R. M. Easton, and D. R. Hutchinson. "Deep structure beneath Lake Ontario: crustal-scale Grenville subdivisions." Canadian Journal of Earth Sciences 31, no. 2 (February 1, 1994): 255–70. http://dx.doi.org/10.1139/e94-025.

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Lake Ontario marine seismic data reveal major Grenville crustal subdivisions beneath central and southern Lake Ontario separated by interpreted shear zones that extend to the lower crust. A shear zone bounded transition between the Elzevir and Frontenac terranes exposed north of Lake Ontario is linked to a seismically defined shear zone beneath central Lake Ontario by prominent aeromagnetic and gravity anomalies, easterly dipping wide-angle reflections, and fractures in Paleozoic strata. We suggest the central Lake Ontario zone represents crustal-scale deformation along an Elzevir–Frontenac boundary zone that extends from outcrop to the south shore of Lake Ontario.Seismic images from Lake Ontario and the exposed western Central Metasedimentary Belt are dominated by crustal-scale shear zones and reflection geometries featuring arcuate reflections truncated at their bases by apparent east-dipping linear reflections. The images show that zones analogous to the interpreted Grenville Front Tectonic Zone are also present within the Central Metasedimentary Belt and support models of northwest-directed crustal shortening for Grenvillian deep crustal deformation beneath most of southeastern Ontario.A Precambrian basement high, the Iroquoian high, is defined by a thinning of generally horizontal Paleozoic strata over a crestal area above the basement shear zone beneath central Lake Ontario. The Iroquoian high helps explain the peninsular extension into Lake Ontario forming Prince Edward County, the occurrence of Precambrian inlier outcrops in Prince Edward County, and Paleozoic fractures forming the Clarendon–Linden structure in New York.
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Chang, Kiki. "Fair workplaces, better jobs: Is Ontario addressing precarious employment?" Critical Studies: An International and Interdisciplinary Journal 14, no. 1 (November 26, 2018): 31–45. http://dx.doi.org/10.51357/cs.v14i1.124.

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The purpose of this paper is to examine how Bill 148, introduced by the province of Ontario in 2017, addresses the issue of precarious employment. Bill 148 was created based on information from The Changing Workplaces Review, which reported on Ontario's labour standards and employment systems. An overview of precarious employment in Ontario is provided, including a working definition of the term, statistics, rates, and demographics. The issues that face precarious workers are explored, using the framework of the four dimensions of precarious work as identified by Rodgers (1989) and Vosko (2010). The Changing Workplaces Review and Bill 148 are analyzed to see if they fully address the concerns of precarious workers in Ontario. The paper concludes with suggestions on how the government of Ontario can continue to address work and employment conditions of those who are precariously employed.
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Dissertations / Theses on the topic "Ontario"

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Walsh, John C. "Landscapes of longing colonization and the problem of state formation in Canada West /." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2002. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/NQ65839.pdf.

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Mejía, Manuel. "Effects of water table management on water quality and strip cropped corn-soybean yields." Thesis, McGill University, 1997. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=27378.

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A two-year field study was carried out in eastern Ontario to investigate the effects of water table management (WTM) on water quality and crop yields. Corn (Zea mays L.) and soybean (Glycine max Merr.) were planted in alternate strips across the three treatments of 50 cm controlled water table (CWT), 75 cm CWT and free drainage (FD). Drainflow volume and nitrate-N concentration of the drainage water were measured. Soil samples were collected and analysed for total N, P, K, available N, soil moisture and organic matter levels. Chlorophyll-meter readings and plant harvest parameters were also measured. Rainfall, soil and air temperatures were recorded throughout the growing seasons.
The obtained data show that in 1995, the CWT plots significantly increased total drainflow, as compared to FD. In 1996, overall drainflow and nitrate concentrations were significantly reduced. Both the corn and soybean yields were higher with WTM than with FD for both years. (Abstract shortened by UMI.)
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Azar, Christian. "Characterization of white floury corn (Zea mays L.) landraces of Ontario." Thesis, McGill University, 1996. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=23867.

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Data were collected on 24 traits to characterize and classify 35 white floury corn (Zea mays L.) landraces collected on native reserves in Ontario. Several landrace x landrace and landrace x inbred crosses were evaluated. Test crosses were made to determine whether the landraces carry the floury-l (fl$ sb1$) allele. Most traits examined exhibited considerable variation among the landraces. Variation was also observed within many of the landraces for ear and cob colour, for endosperm texture and row number. The landraces were grouped into 10 clusters by centroid clustering analysis. Significant heterosis over the mid-parent value was observed in the crosses among landraces. Some crosses between landraces and inbreds yielded more than either parent. Crossing the landraces with the inbreds improved some agronomic characteristics, but disrupted some of the ear characteristics of the landraces. The floury factor responsible for the characteristic endosperm texture of the IAPO landraces was identified as being the dosage dependent fl$ sb1$.
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Deller, D. Brian. "The Paleo-Indian occupation of southwestern Ontario : distribution, technology, and social organization." Thesis, McGill University, 1988. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=75779.

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This study concerns Paleo-Indian behaviour and culture history in the central Great Lakes region. More than 15 sites and numerous loci associated with Late Pleistocene and Early Holocene societies in southwestern Ontario are reported. These are organized into archaeological complexes and their interpretation is synthesized into a broader understanding of early occupations in the Northeast.
Complexes are defined by projectile point typology and substantiated by other technological traits and patterns of lithic raw material utilization. Early (fluted point associated) Paleo-Indian complexes are, in suggested chronological order, Gainey, Parkhill, and Crowfield. Late Paleo-Indian complexes are Holcombe and Madina. All date between 11 000 and 10 000 B.P. according to geological considerations, pollen dating, and comparisons to dated materials elsewhere.
Seasonal rounds of resource exploitation within broad territorial ranges are suggested for Gainey and Parkhill populations. Commodity exchange involving particular implement categories provides evidence of band interaction. Mortuary practices and religious beliefs are suggested by possible cremation burials at the Crowfield site. Other significant behavioural patterns are revealed through inter- and intra-site analyses.
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Kino, Junko Carleton University Dissertation History. "The genesis of reform politics in Upper Canada; the opposition group of the fifth parliament, 1809-1812." Ottawa, 1988.

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El-Khodary, Ihab Ahmad Fahmy. "Commodity flows within Ontario and between Ontario and the United States of America." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk3/ftp04/nq21343.pdf.

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Scanlon, Debra A. "Carbon dioxide production due to the subsurface decomposition of peat in a Canadian bog, poor fen, and beaver pond margin." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape11/PQDD_0003/MQ44274.pdf.

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MacDonald, Robert I. "Late Woodland settlement trends in south-central Ontario : a study of ecological relationships and culture change." Thesis, McGill University, 2002. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=82925.

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This study investigates the land-use patterns of the Iroquoian populations that occupied south-central Ontario during the Late Woodland period. Its initial objective is to understand their cultural ecology as reflected in the placement of their semi-permanent settlements over time. Its ultimate goal is to ascertain how environmental change and ecological adaptation contributed to culture change and particularly to the historical development of these populations and their long-term settlement shift from the north shore of Lake Ontario to Huronia and Petunia.
The theoretical guide for this study is the premise that an understanding of culture change can only be achieved by considering evolutionary sequences in all their particularistic complexity, taking into account both generalizations about human behaviour and contingent influences. The methodological guide is the concept of multidimensional constraint, the idea that human behaviour is the rational negotiation of objectives that are constrained by both internal and external parameters operating in a nested series of contexts. These principles are used to develop a methodology utilizing detailed environmental description, summary statistics, and careful evaluation and interpretation to investigate correlations between settlement locations and environmental features at the local, regional, and pan-regional scales. The overall objective is a well-grounded explanatory narrative outlining the multiple dimensions of constraint that influenced Late Woodland settlement in south-central Ontario.
The ensuing investigations yield numerous insights into Iroquoian cultural ecology and illustrate the complexity of the long-term settlement shift. In broad outline, it involves an initial phase of settlement, indicating continuity with the Middle Woodland period, an expansion phase, involving the occupation of analogous physiographic zones throughout south-central Ontario, and a final contraction phase, involving coalescence into the uplands of northern Simcoe County. At the local and regional scales, these phases involve slightly different adaptive strategies over time and space, influenced by constraints that included community population size, intensifying food production, temporal and spatial climatic variation, foraging logistics, changing distributions of natural resources, and geo-politics. These results demonstrate the adaptive capacity of these Iroquoian populations, confirm the efficacy of the methodological approach, and establish an ecological context for future investigations dealing with the social aspects of Late Woodland culture change in South-central Ontario.
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Pearse, Janet. "Ontario works : mothering and neo-liberal social policy." Thesis, McGill University, 2000. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=31039.

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In 1995 the Government of Ontario introduced reforms that significantly changed the way welfare was delivered in the province. Welfare rates were cut and benefits became conditional on recipients participating in a workfare programme called Ontario Works. These reforms ignore women's responsibility for child care. Single mothers and their children will be the group most affected by these changes. Single mothers are interviewed about how these changes have affected them, with particular attention to their experiences with the Ontario Works programme and its impact on their ability to care for their children.
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Hristeva, Polina. "Ontario feedlot operators' willingness to accept carbon credit revenue for adopting management practices that reduce greenhouse gas emissions." Thesis, McGill University, 2007. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=101851.

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The Canadian agricultural sector was recognised as a potential seller of carbon offset credits in the domestic emission trading system. A number of beneficial management practices may reduce GHG emissions while increasing production efficiency and profitability of agricultural activities. A contingent valuation survey was used to estimate the carbon offset price at which feedlot operators in Ontario would adopt two management practices that reduce GHG emissions: adding roasted soybean seeds to a cattle diet and increasing the intensity of feedlot operations. The value elicitation questions to estimate the mean WTA compensation were designed using a multiple bounded discrete choice format developed by Welsh and Poe (1998).
It was estimated that at a carbon offset price of $ 25.14/t CO2 e provided enough incentive for feedlot operators to intensify their operations and a price of $ 109.51/t CO2e to change their feeding strategies. The mean willingness to accept a cost to change a conventional practice to a greenhouse gas emissions reducing practice was estimated to be 62% of the carbon revenue. The regression analysis demonstrated that producers' willingness to accept compensation was influenced by the individual's characteristics, farm structure variables, and practice attributes. Policy makers may use these results in the design of greenhouse gas reduction strategies for the beef sector.
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Books on the topic "Ontario"

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Morganelli, Adrianna. Ontario. Toronto: Scholastic Canada, 2009.

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Mackey, Kathryn. Ontario. Toronto: Grolier, 1991.

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Craats, Rennay. Ontario. Calgary: Weigl Educational Publishers, 2004.

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Berli, Rémi. Ontario. London: Harrap Columbus, 1988.

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LeVert, Suzanne. Ontario. Edited by Sheppard George and Philip Lief Group. New York: Chelsea House, 1991.

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Morganelli, Adrianna. Ontario. Toronto: Éditions Scholastic, 2009.

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LeVert, Suzanne. Ontario. Edited by Sheppard George. Philadelphia: Chelsea House, 2001.

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Michael, Barnes. Ontario. Minneapolis, Minn: Lerner Publications, 1995.

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Beckett, Harry. Ontario. Vero Beach, Fla: Rourke Book Co., 1997.

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Dean, Kathryn. Ontario. Toronto: McGraw-Hill Ryerson, 1990.

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Book chapters on the topic "Ontario"

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Langlois, Pierre, and Geneviève Gauthier. "Ontario." In Canadian Energy Efficiency Outlook, 131–72. 1 Edition. | Lilburn, GA : Fairmont Press, Inc., [2018]: River Publishers, 2020. http://dx.doi.org/10.1201/9781003151326-11.

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Klee, Gudrun. "Ontario." In Kanada, 113–35. Wiesbaden: VS Verlag für Sozialwissenschaften, 1989. http://dx.doi.org/10.1007/978-3-322-95545-6_7.

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Hill, Terry. "Ontario Packaging." In Manufacturing Strategy, 417–19. London: Macmillan Education UK, 2000. http://dx.doi.org/10.1007/978-1-349-14018-3_22.

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Mazar, Alissa. "Windsor, Ontario." In Deindustrialization and Casinos, 21–38. Abingdon, Oxon ; New York, NY : Routledge, 2020. |: Routledge, 2020. http://dx.doi.org/10.4324/9781003028505-2.

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Keathley, Kevin. "Ontario Cloud." In Enterprise Cloud Computing for Non-Engineers, 211–15. Boca Raton, FL : CRC Press/Taylor & Francis Group, 2018. | “A CRC title, part of the Taylor & Francis imprint, a member of the Taylor & Francis Group, the academic division of T&F Informa plc.”: Auerbach Publications, 2018. http://dx.doi.org/10.1201/9781351049221-16.

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Hrab, Roy, and Peter Fraser. "Ontario." In Generating Electricity in a Carbon-Constrained World, 347–67. Elsevier, 2010. http://dx.doi.org/10.1016/b978-1-85617-655-2.00013-4.

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"Ontario." In Lessons from PISA for Japan, 133–47. OECD, 2012. http://dx.doi.org/10.1787/9789264118539-7-en.

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White, Graham. "Ontario." In Cdn Annual Review 1984. Toronto: University of Toronto Press, 1987. http://dx.doi.org/10.3138/9781442671973-008.

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White, Graham. "Ontario." In Cdn Annual Review 1985. Toronto: University of Toronto Press, 1988. http://dx.doi.org/10.3138/9781442671980-010.

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White, Graham. "Ontario." In Cdn Annual Review 86. Toronto: University of Toronto Press, 1990. http://dx.doi.org/10.3138/9781442671997-011.

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Conference papers on the topic "Ontario"

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Januszkiewicz, Mirka, and Shawn Worster. "Winds of Change: Developing a 21st Century Energy From Waste Facility in Ontario." In 17th Annual North American Waste-to-Energy Conference. ASMEDC, 2009. http://dx.doi.org/10.1115/nawtec17-2345.

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Currently, over 70% of the non-hazardous solid waste generated in Ontario is disposed of in landfills. Approximately 45% of Ontario’s waste is disposed of in landfills located in Michigan. Disposal of residual waste in Ontario is undergoing a major shift. Pursuant to agreements made in 2006 between Ontario municipalities and federal and state representatives of Michigan, waste from Ontario municipalities will no longer be disposed in Michigan landfills post 2010. That has put enormous pressure on Ontario municipalities to seek alternative disposal solutions for the waste remaining after they reduce, reuse and recycle.
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Chow, Stephanie. "Ontario healthcare privacy act." In the 2006 International Conference. New York, New York, USA: ACM Press, 2006. http://dx.doi.org/10.1145/1501434.1501522.

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Bradley, Laura. "Eastern Ontario Regional Network." In 2015 IEEE Canada International Humanitarian Technology Conference (IHTC2015). IEEE, 2015. http://dx.doi.org/10.1109/ihtc.2015.7238061.

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Beaulieu, G. T., M. G. Skafel, and W. F. Baird. "Offshore Breakwater, Wheatley, Ontario." In 19th International Conference on Coastal Engineering. New York, NY: American Society of Civil Engineers, 1985. http://dx.doi.org/10.1061/9780872624382.130.

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Riesenbach, Ron. "The Ontario telepresence project." In Conference companion. New York, New York, USA: ACM Press, 1994. http://dx.doi.org/10.1145/259963.260217.

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Schiedel, Matthew, Cynthia A. Cruickshank, and Christopher Baldwin. "In-Situ Experimental Validation of THERM Finite Element Analysis for a High R-Value Wall Using Vacuum Insulation Panels." In ASME 2013 7th International Conference on Energy Sustainability collocated with the ASME 2013 Heat Transfer Summer Conference and the ASME 2013 11th International Conference on Fuel Cell Science, Engineering and Technology. American Society of Mechanical Engineers, 2013. http://dx.doi.org/10.1115/es2013-18207.

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Team Ontario is one of twenty collegiate teams selected to design and build a solar powered, net positive home for the U.S. Department of Energy Solar Decathlon 2013. One aspect of Team Ontario’s competition design entry is a high R-value wall using vacuum insulation panels. This paper details the method used for theoretical evaluation of the high R-value wall, stating all simplifying assumptions made. Theoretical simulations were performed in THERM, a two dimensional finite element heat transfer modelling program. Following a weighted average method used by industry experts, the whole-wall thermal resistance value was calculated. To verify the modelling results, an in-situ experimental validation was conducted. An 8′ × 8′ wall test specimen was built to the specifications of Team Ontario’s wall design. Experimental heat flux and temperature readings were collected from the test specimen in Carleton University’s Vacuum Insulation Test Facility located in Ottawa, Ontario, Canada, with the test specimen exposed to exterior weather elements. The experimental and theoretical results are compared and conclusions drawn to determine the effective thermal resistance of the vacuum insulation panels installed in the wall assembly. Finally the theoretical model is refined based on the previous study and a more accurate whole-wall thermal resistance of Team Ontario’s wall design is determined.
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Reford, Stephen, and Andy Fyon. "Ontario's operation treasure hunt: Stimulating mineral exploration in Ontario through airborne geophysics." In SEG Technical Program Expanded Abstracts 2000. Society of Exploration Geophysicists, 2000. http://dx.doi.org/10.1190/1.1815585.

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Rebellon, Pedro. "Special protection systems in Ontario." In 2009 IEEE/PES Power Systems Conference and Exposition (PSCE). IEEE, 2009. http://dx.doi.org/10.1109/psce.2009.4840122.

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Pindar, Alana. "Native pollinators in Ontario agriculture." In 2016 International Congress of Entomology. Entomological Society of America, 2016. http://dx.doi.org/10.1603/ice.2016.111553.

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Cooper, Thomas A., and James S. Wallace. "Design of a 200 kWe Solar Thermal Power Plant for Ontario." In ASME 2008 2nd International Conference on Energy Sustainability collocated with the Heat Transfer, Fluids Engineering, and 3rd Energy Nanotechnology Conferences. ASMEDC, 2008. http://dx.doi.org/10.1115/es2008-54216.

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A preliminary design and feasibility study has been conducted for a 200 kWe solar thermal power plant for operation in Ontario. The objective of this study is to assess the feasibility of small-scale commercial solar thermal power production in areas of relatively low insolation. The design has been developed for a convention centre site in Toronto, Ontario. The plant utilizes a portion of the large flat roof area of the convention centre to accommodate the collector array. Each power plant module provides a constant electrical output of 200 kWe throughout the year. The system is capable of maintaining the constant output during periods of low insolation, including night-time hours and cloudy periods, through a combination of thermal storage and a supplemental natural gas heat source. The powerplant utilized the organic Ranking cycle (ORC) to allow for relatively low source temperatures from the solar collector array. A computer simulation model was developed to determine the performance of the system year-round using the utilizability-solar fraction method. The ORC powerplant uses R245fa as the working fluid and operates at an overall efficiency of 11.1%. The collector is a non-concentrating evacuated tube type and operates at a temperature of 90°C with an average annual efficiency of 23.9%. The system is capable of achieving annual solar fractions of 0.686 to 0.874 with collector array areas ranging from 30 000 to 40 000 m2 and storage tank sizes ranging from 3.8 to 10 × 106L respectively. The lowest possible cost of producing electricity from the system is $0.393 CAD/kWh. The results of the study suggest that small-scale solar thermal plants are physically viable for year round operation in Ontario. The proposed system may be economically feasible given Ontario’s fixed purchase price of $0.42 CAD/kWh, but the cost of producing electricity from the system is highly dependent on the price of the solar collector.
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Reports on the topic "Ontario"

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Woudsma, C., W. Towns, J. Beatty, Q. Chiotti, H. Farghaly, S. Grady, D. Gray, and M. White. Ontario. Natural Resources Canada/CMSS/Information Management, 2017. http://dx.doi.org/10.4095/330415.

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Woudsma, C., W. Towns, J. Beatty, Q. Chiotti, H. Farghaly, S. Grady, D. Gray, and M. White. Ontario. Natural Resources Canada/CMSS/Information Management, 2017. http://dx.doi.org/10.4095/330424.

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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, January 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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Presseau, Justin, Laura Desveaux, Upton Allen, Trevor Arnason, Judy L. Buchan, Kimberly M. Corace, Vinita Dubey, et al. Behavioural Science Principles for Supporting COVID-19 Vaccine Confidence and Uptake Among Ontario Health Care Workers. Ontario COVID-19 Science Advisory Table, March 2021. http://dx.doi.org/10.47326/ocsat.2021.02.12.1.0.

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Health Care Workers (HCWs) are the backbone of Ontario’s COVID-19 pandemic response and are a key vaccination priority group. About 80% of Ontario HCWs intend to receive COVID-19 vaccine.1 Challenges include the logistics of delivering the vaccine to this mobile and diverse group and improving vaccine confidence in the remaining 20%. These challenges can be overcome by allaying safety concerns and highlighting personal benefits; tailoring messages to factors associated with lower intention (e.g. age, gender, ethnicity and work setting); employing trusted leaders to set the tone and peers to build social norms; and leveraging public health organizations and health institutions as existing channels of influence.
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Choi, Yoojin, Nathan M. Stall, Antonina Maltsev, Chaim M. Bell, Isaac I. Bogoch, Tal Brosh, Gerald A. Evans, et al. Lessons Learned from Israel’s Vaccine Rollout. Ontario COVID-19 Science Advisory Table, February 2021. http://dx.doi.org/10.47326/ocsat.2021.02.09.1.0.

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As Ontario expands access to the COVID-19 vaccine beyond the Phase 1 priority populations, strategic planning and execution of mass vaccine rollout will have a significant impact on the health and safety of Ontario’s 14.5 million residents. There are six key elements of Israel’s successful COVID-19 vaccine campaign that can be readily applied to Ontario to expedite and expand the province’s vaccine rollout strategy: a simple vaccine prioritization process; modification to the transport, storage, and distribution of the vaccines; effective communication to promote vaccine confidence; decentralization of vaccination sites; centralized organization through Health Maintenance Organizations (HMOs) using a fully integrated information technology (IT) system in a universal health care system; and the engagement of community-based personnel, infrastructure, and resources.
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Percival, J. A. Dryden, Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1987. http://dx.doi.org/10.4095/130236.

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Percival, J. A. Ignace, Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1987. http://dx.doi.org/10.4095/130237.

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Juni, Peter, Antonina Maltsev, Gabrielle Katz, Anna Perkhun, and Shujun Diana Yan. Ontario Dashboard. Ontario COVID-19 Science Advisory Table, 2021. http://dx.doi.org/10.47326/ocsat.dashboard.2021.1.0.

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Sanford, B. V. Paleozoic geology of central Ontario and adjacent Lake Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1995. http://dx.doi.org/10.4095/205053.

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Ball, R. J. Naming in Ontario. Natural Resources Canada/ESS/Scientific and Technical Publishing Services, 1997. http://dx.doi.org/10.4095/298543.

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