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GLG Geology CoursesSCI199Y1
Undergraduate seminar that focuses on specific ideas, questions, phenomena or controversies, taught by a regular Faculty member deeply engaged in the discipline. Open only to newly admitted first year students. It may serve as a distribution requirement course; see page 40. GLG100H1
The natural materials of the Earth’s crust: crystals, minerals, gemstones, rocks and their role in society throughout the ages; designed for students who are not Geology specialists. GLG100H1
GLG103H1
Geologic hazards: earthquakes, volcanoes, landslides, tsunamis. The distribution and politics of natural resources, including petroleum and ore deposits. Nuclear power and nuclear waste disposal. Global change: the geologic record of hot and cold climates, and how the earth survives. GLG103H1
GLG105H1
The evolution of ideas about the origin and development of the earth from the Athenians to the 20th Century. With attention on whether the earth has an infinite or a finite life; on the evolution and disappearance of species; on the origin of oceans, continents and mountains; on the forces that have shaped the earth’s surface; and on the courage of scientists in confronting the religious and political views of their time. GLG105H1
GLG110H1
The nature and evolution of the Earth; plate tectonics; rocks and minerals; volcanism; geological time; fossils; geology of Ontario; environmental issues. GLG110H1
GLG130H1
Scientific findings of the solar system exploration program and their application to the origin of the earth and solar system; space resources; search for life on other planets. GLG205H1
The emergence of society as a major geological force is considered in terms of the evolving debate about the consequences of human activity for the habitability of our planet. Major issues such as climate change, environmental pollution, and depletion of natural resources are examined. GLG205H1
GLG206H1
An overview of the structural, chemical and optical properties of minerals. Laboratories on the identification of minerals in hand specimen and thin section. A mandatory 2 day field trip in late September. GLG207H1
Origin and classification of igneous, sedimentary and metamorphic rocks and their associated ore deposits. Emphasis is placed on rock types in the context of plate tectonic theory, and the practical aspects of rock identification in hand sample and thin section. GLG216H1
A survey of principal physical processes that shape and transform the continents and oceans of the Earth’s crust, with examples from North America. Laboratories in field geology and elementary mapping techniques, interpretation of geologic maps, and exercises in structural geology. Field trips in afternoon laboratory sessions; return to campus by 6:00 p.m. GLG217H1
An introduction to the evolution of the biosphere from the earliest stabilization of the Earth’s crust. Patterns of evolution and extinction are related to physico-chemical and biologically-mediated changes at the Earth’s surface. Laboratories cover major groups of invertebrate fossils, microfossils, their classification and living analogues. ENV234Y1
See “Division of the Environment” GLG299Y1
Credit course for supervised participation in faculty research project. See page 40 for details. ENV315H1
See “Division of the Environment” GLG318H1
An overview of the nature and origin of igneous and metamorphic rocks, with particular emphasis on the interpretation of textures and mineral assemblages as they reflect conditions of rock formation. Laboratory exercises familiarise students with the most common igneous and metamorphic rock types, and provide practical examples of the theoretical principles discussed in lectures. This course also has a mandatory weekend field trip (in conjunction with GLG206H1) to view igneous and metamorphic rocks and structures. The venue for the trip alternates yearly between Bancroft and the Montreal area. GLG319H1
Descriptive petrography and classification of metamorphic rocks; metamorphic processes and evolution of metamorphic rocks; interpretation of metamorphic rocks. (Not offered in 2003-04) GLG340H1
A twelve-day field course in mid-May. Students are introduced to field geology and to basic field measurement, mapping and documentation techniques in the Espanola - Manitoulin Island area, west of Sudbury. Students are responsible for the cost of board and lodging and transport to and from the field area. GLG345H1
The development of geological structures at a variety of scales is examined using the concepts of stress, strain, material behaviour and tectonic setting. Laboratory work focuses on modern methods of structural analysis and their applications in geotechnical engineering and economic geology. GLG351H1
An introduction to aqueous environmental geochemistry emphasising the importance of chemical equilibria, mass transport, and microbiological activity in regulating the chemical composition of natural and contaminated systems. GLG360H1
An introduction to the methods for studying sedimentary rocks in surface and subsurface. Petrographic description and classification of sedimentary rocks are dealt with in lectures and laboratory exercises, followed by a treatment of the principles of stratigraphic documentation and correlation, facies-analysis methods, and a brief description of depositional systems. GLG398H0/399Y0
An instructor-supervised group project in an off-campus setting. See page 40 for details. GLG423H1
Crystal chemistry of the major rock forming minerals. The course covers the underlying concepts behind the behaviour of minerals as solid-state materials including: Structure and bonding of minerals, chemical substitutions and solid-state transformations, high temperature and pressure behaviour, chemical weathering and kinetics. GLG430H1
Architecture and evolution of sedimentary basins in relation to plate-tectonic setting and crustal properties. Sequence stratigraphy: sequence models and sequence forcing mechanisms tectonism, eustasy, climate change. The global-cycle-chart controversy. World-wide review of basins in the context of plate tectonics. GLG436H1
The use of proxy data (terrestial and aquatic microfossils) to infer past environmental conditions. The nature and extent of Quaternary environmental change is considered in the context of assessing current issues such as acidification, metal pollution, eutrophication and global climate change. Paleoenvironmental techniques are applied in the laboratory. JGP438H1
An introduction to the geophysical exploration of the subsurface. Topics include gravity, seismic, magnetic, electrical and electromagnetic surveying and their application in prospecting, hydrogeology, and environmental assessments. GLG440H1
Integrated field, experimental and theoretical approaches to understanding the petrological diversity of igneous and metamorphic rocks. Topics include development of thermobarometers for igneous and metamorphic rocks, the importance of oxygen fugacity in petrogenesis, melting/solidification and metamorphism and igneous activity in the context of global tectonics. (Not offered in 2003-04). GLG442H1
Geology and geochemistry of magmatically related ore deposits, principally Ni, Cu, Pt group, Cr, including porphyry Cu deposits. Use of S, O and H isotopes and fluid inclusions in mineral deposit geology. Origin and interpretation; systematic ore mineralogy, in hand specimen and reflected light microscopy. GLG443H1
Genesis of ore deposits. The basic tools for studying ore genesis such as stable isotopes, fluid inclusions and sulfide mineralogy and their applications to selected types of ores. Practicals involve detailed study of ore suites. GLG445H1
Advanced geological mapping project in a challenging field environment. Students learn to compile existing geoscience data, create a geological map and prepare a professional final report on their activities and findings. Students are responsible for the costs of board, lodging and transportation. GLG448H1
A two-week course in late summer designed to familiarize students in a variety of hydrogeological and biogeochemical field techniques; based at Atomic Energy Canada Laboratories, Chalk River, and includes a mixture of lecture, laboratory and field exercises. Students are responsible for the cost of board and lodging and transport to and from the field area. GLG450H1
Drawing primarily on examples from hydrogeology, this course explores physical, chemical and isotopic constraints on contaminant source transport and attenuation GLG465H1
Exploration of physical Earth processes and their relationship to large-scale geological phenomena. Mantle convection as plate tectonic engine; intraplate/plate boundary lithospheric deformation including orogenesis and crustal subsidence. Focus on reconciling geodynamic theory/modelling with geological/geophysical observations. GLG470Y1
Laboratory research emphasizing methods and experimental techniques applicable to geology. Students must obtain the consent of an instructor and register with the Undergraduate Coordinator before enrolling and are urged to do so toward the end of their Third Year. Students are required to give an oral presentation of research results to an open meeting of the Department. GLG471H1
Laboratory research emphasizing methods and experimental techniques applicable to geology. Students must obtain the consent of an instructor and register with the Undergraduate Coordinator before enrolling and are urged to do so toward the end of their Third Year. Students are required to give an oral presentation of research results to an open meeting of the Department. |
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