Global ETD Search

31	The role of moisture and temperature cycles in soil movement on Mont St. Hilaire, Quebec. Gwyn, Q. H. J., 1942- January 1968 (has links) No description available. Soil moisture Soil temperature
32	Le plan d'implantation et d'intégration architecturale (PIIA) et son application en milieu résidentiel périurbain Marquis, Geneviève January 2007 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. Urbanisme Réglementation Outils discrétionnaires Critères de design Municipalités Boucherville La Prairie Mont-Saint-Hilaire Montréal
33	Petrology and Geochemical Evolution of the East Hill Suite of the Mont Saint-Hilaire Alkaline Plutonic Complex Tice, Peter 05 August 2010 (has links) The Mont Saint-Hilaire alkaline complex, Québec, is a Cretaceous rift-related intrusion comprising two gabbroic suites and the East Hill suite, an assemblage of several distinct nepheline syenites and evolved syenitic rocks. Whole-rock analysis of the East Hill suite reveals two fractionation trends, one which is described by the syenitic lithologies and one by the evolved syenites and syenoids. A lamprophyric unit stands on its own, geochemically, consistent with typical lamprophyre petrogenesis. Whole-rock geochemistry of the East Hill suite shows moderate silica content but highly alkaline rocks, enriched in Mn, Zn, Zr, Y, and Ce. Chlorine and sulfur are important and present in abundant secondary sodalite and pervasive microsulfides. Mineral geochemistry indicates decreasing oxygen fugacity with cooling, and phases such as titanite (present) and aenigmatite (absent) defined boundaries in fO2 – T space. Oxygen fugacity data combined with petrography and geothermometry defined an 2 fO – T curve for the East Hill suite magma, revealing that the oxygen fugacity ranged between approximately 10-10 bar at intrusion down to 10-25 bar subsolidus, and that, owing to non-linearity of oxygen buffers, the 2 fO – T path crossed below QFM early, went above QFM late in the crystallization history and then above HM with cooling. A similar procedure applied to sulfur fugacity generated a trend of initial increase from about 10-4 to 10-2 bar followed by decreasing sulfur fugacity with cooling down to approximately 10-8 bar. The oxygen trend implies that earlier suggestions that oxidation of iron drove the evolution of pyroxenes towards aegirine are incorrect. Textural evidence of abundant alteration and secondary mineralization suggests subsolidus action of alkaline fluids. Contrary to previous studies, most sodalite in the East Hill suite is not primary but is the product of reaction of nepheline with chloride-rich fluids after crystallization. Sodalite pseudomorphs continued to react with these fluids, whose chemistry changed with time to silica- then carbonate-rich, resulting in further reactions that led to natrolite and dawsonite deposition, accompanied by late-stage rhodochrosite. It is hypothesized that the silica- and carbonate-rich phase of these fluids caused the decomposition of a melilite groundmass in the lamprophyre to a natrolite-calcite assemblage. Mont Saint-Hilaire oxygen fugacity sulfur fugacity alkaline fluids pyroxene trend
34	Saccharomyces sensu stricto as a model system in ecology and evolution Replansky, Taissa. January 2007 (has links) Baker's yeast, Saccharomyces cerevisiae, is a well-studied model system in genetics and molecular biology. It is also a promising system for experimental ecology, evolution, and epidemiology, and is very important in the fermentation industry. The large amount of information generated by studies using this organism cannot be fully exploited until sufficient ecological data is gathered. Only when the natural environment of S. cerevisiae is well characterized can research using this yeast as a model system be put into context. The lack of information about the natural environment of S. cerevisiae is what prompted this work. First, I review the current available data on the ecology and evolution of S. cerevisiae and its sister species (the sensu stricto species complex). I then report results from fieldwork in an old growth forest. Finally, I report a community ecology experiment carried out using three naturally coexisting yeasts from this forest. Saccharomyces -- Ecology. Saccharomyces -- Evolution. Saccharomyces cerevisiae -- Evolution.
35	Weathering of rocks and mobility of elements in soil profiles of Mont St. Hilaire, Quebec. Mallick, Khalil Ahmed January 1967 (has links) No description available. Weathering
36	Saccharomyces sensu stricto as a model system in ecology and evolution Replansky, Taissa. January 2007 (has links) No description available. Saccharomyces -- Evolution. Saccharomyces cerevisiae -- Evolution. Saccharomyces -- Ecology.
37	Weathering of rocks and mobility of elements in soil profiles of Mont St. Hilaire, Quebec. Mallick, Khalil Ahmed January 1967 (has links) No description available. Weathering
38	CHEMICAL AND STRUCTURAL CHARACTERIZATION OF FLUORAPATITE FROM THE POUDRETTE PEGMATITE, MONT SAINT-HILAIRE, QUEBEC, CANADA Chappell, Joseph Caleb 14 January 2019 (has links) No description available. Mineralogy Geology Geochemistry

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