Bachelor of Natural Resource Science (BNRS) Natural Resource Science

Credits: 3 credits
Delivery: Campus

Students will explore evolution as unifying principle of biology: how it occurs, and how it leads to increasing biological diversity through speciation. They will develop an understanding of how evolutionary opportunities and constraints are reflected in the history of life on Earth and will examine the evolutionary conundrum of sexual reproduction (or lack thereof) in both plants and animals. They will develop important skills useful for biologists such as working in teams, finding and disseminating information, conducting research projects by developing and testing hypotheses, and communicating research results effectively. Pre-requisites: Life Sciences 11 with a minimum grade of C+ or Anatomy & Physiology 12 with a minimum grade of C+ or BIOL 0500 with a score of C+ or better or BIOL 0600 with a score of C+ or better or BIOL 0620 with a score of C+ or better and Chemistry 11 with a score of C+ or better or CHEM 0500 with a score of C+ or better

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Credits: 3 credits
Delivery: Campus

Students explore the practices of reading and writing in scholarly contexts by investigating a chosen topic or issue. Students read, critically analyze, and synthesize information and ideas found in appropriate secondary sources and coming from a variety of disciplinary backgrounds. They also develop their abilities to communicate knowledge by composing in the genres and sub-genres of scholarly writing, including the incorporation of research and documentation while using a clear, persuasive, grammatically-correct style. Prerequisite: English Studies 12 /English First Peoples 12 with a minimum 73% or equivalent Note: students cannot receive credit for both ENGL 1100 and ENGL 1101

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Credits: 3 credits
Delivery: Campus

Students acquire an understanding of current issues within the management of natural resources by engaging with guest speakers, conducting laboratory experiments, and partaking in field excursions. They develop skills to apply scientific inquiry and knowledge to better understand the relationship between people and societies and natural resource management strategies. Students will reflect upon their own use of natural resources and how it affects sustainability. Topics include an introduction to terrestrial and aquatic ecosystems, water resources, fisheries and wildlife management, and ecosystem restoration.

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Credits: 3 credits
Delivery: Campus

Students will learn the structure and function of trees (i.e. reproduction, development, anatomy, morphology and physiology), the ecology and evolution of trees looking at both their present and past uses and the preservation of trees on the landscape including the importance of trees and how to manage for some species using both modern science and traditional knowledge. The laboratory component surveys a selection of Canadian, North American, and introduced tree species. Deciduous species are emphasized in NRSC 1120 and coniferous species will be emphasized in NRSC 1220. Prerequisite: Life Science 11 or HORT 1500

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Credits: 3 credits
Delivery: Campus

With a focus on forest soils, students investigate the physical, chemical, and biological properties of soil. Students will apply this knowledge to better understand the implication of land management on soil properties. Topics include soil formation, classification, use, and conservation.

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Credits: 3 credits
Delivery: Campus

This course is designed for biology or science majors. Students examine the molecular basis of cellular processes including energy transfer and the storage and use of genetic information. Prerequisite: Life Sciences 11 with a minimum grade of C+ or Anatomy & Physiology 12 with a minimum grade of C+ and Chemistry 11 or CHEM 0500. Note: Students repeating a course may be exempt from the laboratory component of that course if they took the course within two years and obtained a grade of at least 70% in the laboratory component of the course. The grade they previously obtained in the laboratory component of the course will be used in the calculation of their course grade.

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Credits: 3 credits
Delivery: Campus

Students analyze and discuss examples of writing from scientific and technical literature to improve their communication skills for lay and scientific audiences. Students learn to identify and produce writing styles and formats appropriate for science-based contexts and audiences, as well as develop skills in writing and documenting research documents on science and technology topics. Prerequisites: Admission to the Bachelor of Science Program OR Bachelor of Natural Resource Science Program OR Permission of the instructor AND CMNS 1290 OR CMNS 1291 OR ENGL 1100 OR ENGL 1101 Note: Students cannot receive credti for both CMNS 2300 and ENGL 2300

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Credits: 3 credits
Delivery: Campus

Students will learn about the structure and function of coniferous trees (i.e. reproduction, development, anatomy, morphology and physiology), the ecology and evolution of coniferous trees including both their present and past uses, and the preservation of coniferous trees on the landscape including the importance of trees and how to manage for species using both modern science and traditional knowledge. The laboratory component surveys a selection of Canadian, North American, and introduced coniferous tree species. Corequisite: NRSC 1120

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Credits: 3 credits
Delivery: Campus

Students develop an understanding and appreciation of the complexities and interactions that encompass forest ecosystem structures and functions, and learn how to apply this knowledge to predict forest ecosystem responses to natural and human-induced disturbances. Students assess how forest ecosystem structures and function interact, how they change over time, and how they affect forest management practices. This course provides hands-on practical experience for students. Prerequisite: Admission to the Natural Resource Science Program or permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

Students analyze the evidence for, and impacts of climate change, and develop an understanding of observed changes in climate, the causes of climate change, projected future climate change, and mitigation options for decreasing the impact of climate change.

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Credits: 3 credits
Delivery: Campus

This course develops an understanding and historical context of atomic and molecular structure. Students will organize and synthesize existing knowledge of chemical structure, and engage in reflective review of their understanding. Topics include electron configurations, periodic trends, chemical bonding, Lewis structures, molecular shapes, valence bond and molecular orbital theory. The organic chemistry portion of the course focuses on the bonding and structure of organic compounds, functional groups, conformational and stereochemical features including applications to biochemistry. The laboratory stresses precision techniques in analytical chemistry. Students collect and analyze data and draw evidence-based conclusions. The laboratory provides opportunity for students to expand their existing knowledge and immerse them in challenging laboratory environment. Students receive weekly feedback and mentorship in the lab and lecture. Prerequisite: Chemistry 11 or 12 or CHEM 0500 or 0600; and Pre-Calculus 12 or MATH 0600/0610

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Credits: 3 credits
Delivery: Campus

Students consider how the place most dominantly known as Canada came to be and their place in it. Taking an Indigenous and Settler Colonial Studies approach that recognizes all ways of knowing on equal footing, students will explore how colonialism operates as a project of cultural domination and how settler colonialism presents as a particular articulation of it. Topics may include: The Indian Act, the Reserve System, Residential Schools, Treaties and Land Claims, Forced Relocations, First Nations self-government and Indigenous self-determination and nationhood, the Truth and Reconciliation Commission of Canada's Calls to Action and the United Nations Declaration on the Rights of Indigenous Peoples, and students' own role in decolonization and reconciliation in settler colonial Canada. Recommended Prerequisite: ANTH 1210 Note: Students will only receive credit for one of ANTH 2140 and ANTH 2141

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Credits: 3 credits
Delivery: Campus

This course will provide a critical overview of the historical and contemporary issues in Indigenous tourism economies. Prerequisite: TMGT 3050 and 3rd year standing

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Credits: 3 credits
Delivery: Campus

A review of historical and contemporary issues shaping Indigenous peoples' relationship to their lands and resources and the impact of governmental policies on this relationship. Topics will include the Indian Act, traditional indigenous views of resource management, treaties, and analysis of current policies on resource management and aboriginal life. Prerequisite: ANTH 1210

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Credits: 3 credits
Delivery: Campus

This course takes a cross-cultural comparative approach to the study of contemporary Indigenous Peoples. Indigenous Peoples constitute a diverse range of groups throughout the world. What they have in common is the shared experience of colonization. Recognizing the diversity of Indigenous Peoples throughout the world, this course will explore both those experiences shared between groups, and those unique to local contexts. Prerequisite: ANTH 1210

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Credits: 3 credits
Delivery: Campus

This course introduces the North American sub-Arctic, Arctic, and High Arctic as discrete cultural regions. Surveying the historical, ecological and cultural diversity of the Arctic, this course reviews anthropological perspectives on the past and present lives and experiences of indigenous peoples who have made the high latitudes their home for millenia. This course documents patterns of social organisation among Inuit, Dene, and Metis with a secondary focus directed towards recent economic, political, and cultural trends in the region resulting from European contact, colonisation, and political devolution. Prerequisite: ANTH 1210 and completion of 45 credits (any discipline)

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Credits: 3 credits
Delivery: Campus

This course provides the mathematical foundation for an introductory calculus course. Topics include equations and inequalities; functions, models, and graphs; polynomial and rational functions; exponential and logarithmic functions; trigonometric functions, identities and equations. Prerequisite: Pre-calculus 12 with a minimum grade of 60% (C) or MATH 0630 with a minimum grade of C or MATH 0633 with a minimum grade of C or MATH 0600 with a minimum grade of B or equivalent. Note: Students can get credit for only one of the following MATH 1000 or MATH 1001.

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Credits: 3 credits
Delivery: Campus

Students study differential calculus for functions of one variable, with applications emphasizing the physical sciences. Topics include calculation and interpretation of limits and derivatives; curve sketching; optimization and related-rate problems; l'Hospital's rule; linear approximation and Newton's method. Recommended Prerequisites: Pre-calculus 12 (min grade of C+) or MATH 0610 (min. grade of C-) or MATH 0630 (min grade of C-) or MATH 0633 (min grade of C-) or MATH 1000 (min grade of C-) or MATH 1001 (min grade of C-). Note: Students can get credit for only one of the following MATH 1130, MATH 1140, MATH 1141, MATH 1150, MATH 1157, MATH 1170 or MATH 1171.

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Credits: 3 credits
Delivery: Campus

Students study differential calculus for functions of one variable, with applications emphasizing the biological sciences. Topics include calculation and interpretation of limits and derivatives, curve sketching, and optimization problems. MATH 1140 is recommended rather than MATH 1150 for students planning to take second-year MATH courses. Prerequisite: Pre-calculus 12 with a minimum grade of 67% (C+) or MATH 0610 with a minimum grade of C- or MATH 0630 with a minimum grade of C- or MATH 0633 with a minimum grade of C- or MATH 1000 with a minimum grade of C- or MATH 1001 with a minimum grade of C- Note: Students can get credit for only one of the following MATH 1130, MATH 1140, MATH 1141, MATH 1150, MATH 1157, MATH 1170 or MATH 1171.

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Credits: 3 credits
Delivery: Campus

Students learn some basic concepts of analysis in a mathematically rigorous manner, using theorems and proofs. Topics include the real number system, suprema and infima, completeness, real functions, and an introduction to continuity and limits using epsilon and delta. Prerequisites: MATH 1240 or MATH 1241 or MATH 1230 and MATH 1220 or MATH 1700 or MATH 1701, with a minimum grade of C for all.

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Credits: 3 credits
Delivery: Campus

Students are introduced to the classical complex function theory, a cornerstone of mathematics. Topics include: complex derivatives and the Cauchy-Riemann equations; the complex exponential function and related elementary functions; integration along curves and Cauchy's theorems; Taylor and Laurent series; zeros and singularities; residues; and evaluation of integrals using the residue theorem. Prerequisite: MATH 2110 or MATH 2111 and MATH 3170 or MATH 2200 all with a minimum grade of C or with departmental permission.

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Credits: 3 credits
Delivery: Campus

Students are introduced to statistical procedures for biological research. Topics include the nature of data, probability, hypothesis testing, goodness of fit, analysis of variance, correlation, and regression. The computer lab laboratory provides students with hands-on computer experience in graphical and statistical analysis. Prerequisite: BIOL 1110 or BIOL 1113 and BIOL 1210 or BIOL 1213 and MATH 1140 or MATH 1141 or MATH 1150 or MATH 1130 Note: Students may normally receive credit for only one of the following: PSYC 2100, PSYC 2101, STAT 2000, STAT 1200, STAT 1201, ECON 2320

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Credits: 3 credits
Delivery: Campus

Students examine the interactions between individuals and firms in various types of markets. Topics include a definition of economics; demand and supply analysis; consumer theory; production and cost; market structure including perfect competition, monopoly, monopolistic competition, and oligopoly; market efficiency and market failure; resource markets; and international trade. Prerequisite: Foundations of Mathematics 11 or Pre-calculus Math 11 with a minimum B OR MATH 0510 or MATH 0530 or equivalent. Completion of one Foundations of Mathematics 12, or Pre-calculus 12 is highly recommended Note: Students cannot receive credit for both ECON 1900 and ECON 1901

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Credits: 3 credits
Delivery: Campus

Students develop and practice, through the use of maps and mapping systems, techniques used in basic photogrammetry, photo mapping, and photo-based inventory systems. Topics include tree stand variables measurement, tree volume calculation, form and taper estimation, and timber scaling and grading. Prerequisite: STAT 2000 (may be taken concurrently) or BIOL 3000 (may be taken concurrently)

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Credits: 3 credits
Delivery: Campus

Students develop an understanding of the systematics, anatomy, physiology, life history, and ecology of freshwater and marine fishes. Students gain practical skills in the identification of local freshwater fishes and salmon species Prerequisite: NRSC 2100 or Permission of the Natural Resource Science program coordinator. Note: Students will only receive credit for one of NRSC 3170 or BIOL 3290.

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Credits: 3 credits
Delivery: Campus

This course introduces students to geodesy and geoinformatics, topics of study commonly referred to collectively as geomatics. Course topics include: common geographic coordinate systems; common map projections; geospatial data models; setting coordinate systems; loading geospatial data; visualization of geospatial data; manipulating feature and coverage values; and basic geoprocessing procedures. Labs will provide hands-on experience with ArcGIS, the leading GIS software in the industry, towards the goal of developing marketable skills geographic information management. Note: This course is identical to NRSC 2230.

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Credits: 3 credits
Delivery: Campus

Students explore silvicultural concepts as they apply to forest stand and landscape level management, as well as silviculture systems as they relate to economics, wildlife, biodiversity, and sustainability. Topics include principles of forest tree improvement, seed handling, nursery practices and artificial regeneration, and natural regeneration and stand tending practices. Field trips provide students the opportunity to observe forest nursery operations, forest operations, and woodlot management. Prerequisites: NRSC 2000 and 2100 and 2110 and 2200 or permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

This course is grounded in the theoretical and applied aspects of limnology. Students explore the ecology of inland water organisms in relation to the physical, chemical, and biological factors that affect their interactions and production. Prerequisite: NRSC 2100 and STAT 2000 or equivalent, or BIOL 3000 or equivalent or Permission of the Natural Resource Science program coordinator. Note: Students will only receive credit for one of NRSC 3260 or BIOL 4020.

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Credits: 3 credits
Delivery: Campus

Students develop an understanding of entomological issues associated with natural resources. Topics include the ecological, economic and social roles of insects as well as identification and basic biology of major groups of insects associated with natural resources. Insect behavioural and chemical ecology and the population dynamics of major insect pests, especially in forests, are reviewed. Students will develop an understanding of ecosystem health, the beneficial and economically positive roles of insects, and the precepts of Integrated Pest Management. Pre-requisite: NRSC 2200

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Credits: 3 credits
Delivery: Campus

Students explore the common tree diseases of western and eastern North American forests, with a focus on British Columbian forests. Topics include the biology, ecology, identification, and management of tree diseases. Prerequisite: NRSC 2100 and NRSC 2200

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Credits: 3 credits
Delivery: Campus

Students examine the basic principles of wildland hydrology and watershed management. Students use a process-based approach to investigate how vegetation, physiography, climate and land management interact to affect watershed function. Prerequisite: NRSC 2000 or Permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

Students apply the tools of microeconomic analysis to environmental issues. Topics include property rights and efficient resource use, market failure, the over-utilization of common pool resources, the Coase Theorem, non-market valuation techniques, government policies designed to cost-effectively control pollution, and real-world strategies for controlling pollution. Prerequisite: ECON 1900

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Credits: 3 credits
Delivery: Campus

Students investigate the climatic changes resulting from global warming and the policy actions being taken to address these problems. Topics include an overview of the science and economics of climate change; the impact of climate change on growth and economic development; the economics of stabilization including efficiency, externalities, public goods, and environmental policy instruments; inter-temporal decisions and uncertainties about the impacts of climate change; the policy responses to mitigation and adaption and their cost; international collective action and its challenges; and prominent climate policy approaches, such as the United Nations Framework Convention and the Kyoto Protocol. Prerequisite: ECON 1900

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Credits: 3 credits
Delivery: Campus

Students focus on the economics of land and natural resource (both nonrenewable and renewable) use issues. Topics include rent theory; welfare measurement; property rights and externalities; policy and project evaluation using cost-benefit analysis and valuation methods; urban and agricultural land economics issues; efficiency and equity in land use planning, including zoning changes; optimal depletion of non-renewable resources and Hotelling's Rule; bio-economics of fisheries and fisheries management; the allocation of water resources; and forest management. Prerequisite: ECON 1900

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Credits: 3 credits
Delivery: Campus

Students are introduced to the concepts and analytical techniques used in forestry economics and their application to forest management, conservation, and policy analysis. Topics include techniques for analyzing forestry investments; timber demand, supply, and pricing; valuation of non-marketed goods and services, such as recreation and wildlife habitat; land allocation and multiple use; forest management issues, such as planting, thinning, and optimal age of crop rotation; and regulatory issues, including allowable annual cut regulations, property rights, tenure, and taxes. Prerequisite: ECON 1900

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Credits: 3 credits
Delivery: Distance

Students investigate topics related to Indigenous self-governance and economic development in Canada, New Zealand, United States and Australia. Topics include the economic rationale for implementing Indigenous government and jurisdiction ; the economic explanation for income differences for Indigenous groups and; the emerging Indigenous public sector; market failures and successes of First Nations & Indigenous communities; approaches to First Nations & Indigenous economic development; and Indigenous and other policy initiatives to improve Indigenous economies; and design Indigenous governments to support sustainable economies. Prerequisites: There are no prerequisites for the course, but ECON 1221 or ECON 1901, and ECON 1951 are recommended. Note: Students cannot get credit for more than one of ECON 2630, ECON 2631.

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Credits: 3 credits
Delivery: Campus

Students are introduced to the study of plant and animal populations and their physical and biological environments. Topics include natural selection and microevolution, demography, population dynamics, competition and predation. Prerequisite: BIOL 2170 or NRSC 2100 (C minimum)

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Credits: 3 credits
Delivery: Campus

Students will develop an appreciation for grassland ecology principles, with a focus on BC grasslands and incorporating BC traditional ecological knowledge. Key concepts include grassland characteristics and ecology, plant physiology, succession, assessment theories, monitoring of grassland, shrubland and savanna ecosystems, and grassland plant identification skills including traditional uses and names of grassland plants. Students will become familiar with management techniques and how these influence grassland plant communities including Indigenous ways of life. Prerequisite: NRSC 2100

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Credits: 3 credits
Delivery: Campus

Students develop an understanding and awareness of the role fire plays in ecosystems, communities, species, and human society. Students examine key elements of fire, specifically, how it interacts with abiotic and biotic environments, its importance in historical, social, and political contexts, and fire management, as it applies to British Columbia and other regions of Canada. Students receive hands-on experience with fire behaviour modelling, and conduct field activities to assess fuel management and wildland urban interface threat. Prerequisite: NRSC 2100 or Permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

Students examine reclamation and restoration techniques of aquatic and terrestrial systems. Using case studies from different disturbance types – mining, oil and gas, forestry, agriculture – students develop techniques to create a complete reclamation/restoration plan. Prerequisite: NRSC 3260 and NRSC 3110 or Permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

Students explore applied range ecology and range management planning. Lecture topics include range history; range inventory and monitoring; animal management; stocking rates; animal distribution; grazing systems; cultivated forages; range improvements and developments; integrated use; legislation; and current grassland issues. Utilizing course material and working in groups to collect field data, students develop an integrated range management plan. Prerequisite: NRSC 3110 or Permission of the Natural Resource Science program coordinator.

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Credits: 3 credits
Delivery: Campus

Students develop a basic understanding of the history, theory, and scientific principles of wildlife conservation and management. Students explore a range of topics including metapopulations and reserve design, population viability analysis, principles of wildlife genetics, introduced species, fragmentation, wildlife habitat analyses, and the demography and extinction risk of small populations. Pre-requisites: BIOL 3030 and NRSC 3000 or BIOL 4270

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Credits: 3 credits
Delivery: Campus

Students develop an understanding of fisheries management. Topics include quantitative stock assessment methodologies, fisheries regulations, habitat restoration, stocking, government policy, and perspectives in global fisheries. Students engage in hands-on fish collection and develop the skills to apply statistical and graphical methods to assess fish populations. Prerequisite: NRSC 3170 Recommended Requisites: NRSC 3260

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Credits: 3 credits
Delivery: Campus

Students explore and build the skills to analyze the land and resource use policies and laws in British Columbia, particularly as affected by indigenous rights and title. Prerequisite: Minimum 3rd year standing in the Bachelor of Natural Resource Science program

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Credits: 3 credits
Delivery: Campus

Students apply the scientific method to answer a natural resource related question using the major concepts of conservation, restoration, and management. This course is completed at the end of a student's studies and develops practical research, writing and presentation skills. The student is expected to professionally collaborate with individual faculty, community and/or industry partners to provide sustainable solutions to the research question. The students will produce both an essay and oral presentation that effectively and accurately conveys information for both professionals and non-professionals. Prerequisite: 4th year standing in the Bachelor of Natural Resource Science program.

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Credits: 3 credits
Delivery: Campus

Students build upon the theory and principles presented in NRSC 4040: Wildlife Management and Conservation 1, by further examining the application of scientific principles to the conservation of wildlife. Students also focus on the philosophy and human dimensions of wildlife conservation and management, particularly the need to balance multiple values in developing sustainable management planning. The course provides for the analysis and discussion of local and global case studies. Prerequisite: NRSC 4040 and STAT 2000 or equivalent, or BIOL 3000 or equivalent such as ECON 2320, PSYC 2100, PSYC 2101, STAT 1200, STAT 1201 or STAT 2000.

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Credits: 3 credits
Delivery: Campus

Students explore the principles of conflict and conflict resolution in the context of natural resource management. Topics include a definition of conflict, how conflict arises, and how consensus is achieved by facilitation, interest-based negotiation, and mediation, with emphasis placed on moving beyond simple problem-solving to the actual resolution of underlying conflicts and issues. Students engage in hands-on role-playing exercises that simulate past, current, and emerging conflicts in the natural resource sector. Prerequisite: Minimum 3rd year standing in the Bachelor of Natural Resource Science program or permission of the Natural Resource Science program coordinator.

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