Ontario College Advanced Diploma in Ecosystem Management Technology Curriculum
Accepting Applications for September 2018
Courses and Descriptions
This course will enable students to apply specific mathematical concepts and acquire foundation skills important in the Natural Resource and Environmental Sciences. It is designed to complement and reinforce learning within other first semester courses and program areas.
Communications I is an introductory course that provides a foundation in college-level communications by teaching students to read critically, write appropriately for a variety of audiences, conduct and cite research, and revise for clarity and correctness. In seminars and labs, students will engage in both independent and collaborative activities, including the development of a digital portfolio designed to help them become more effective communicators in academic and professional environments.
Learn how nature works by studying the key components of the ecosystems in the Kawartha Lakes Region. Through field and lab exploration of wild life, landforms, forests, lakes, rivers and wetlands, students will see the connections between themselves, the environment and ecosystems that surround them.
This course will focus on three areas of study: identification, field and lab skills. Students will identify and classify the living and non-living components of the specific ecosystems described in the Ecology and Environment (ENVR 20) course. Field skills to be developed include the ability to navigate through the natural environment and use a variety of ecosystem inventory techniques. Special emphasis will be placed on safe work habits in lab and field.
This course is designed to introduce students to spatial concepts and mapping. Students will learn to read and understand maps commonly used in the industry today, collect spatial data using modern methods, use and integrate data using a Geographic Information System, and apply recognized cartographic standards to create maps for use in their field of study.
This course will enable students to develop a personal position and direct their career path within the context of the environmental and natural resource industry. An integrated, community based learning approach will be used to identify and apply a personal understanding of leadership, sustainability and community in the context of natural resource sciences.
Communications II, building on the foundation of Communications I, is a blended course that teaches students to write and communicate for a variety of professional situations. In seminars, labs and online modules, students will develop a professional portfolio that demonstrates their abilities to meet the challenges of a changing workplace.
In this course, the student will use information technology tools to manipulate data from a variety of disciplines within the School of Environmental and Natural Resource Sciences. This course will include data collection methods and strategies to effectively manage environmental and natural resource science data.
Ecology: Concepts and Linkages introduces contemporary theory, ideology and practices of ecosystem management. Students use qualitative and quantitative methodology, historical context, and selected experiences to assemble ecological data and information into knowledge that functions to benefit ecosystems. The course integrates ecology, environmental and ecosystem health sciences to assist in the understanding and sequential application of ecosystem management practices.
This course deals with specific measurements and assessment methods for forests. The course involves laboratory sessions and field trips. Measurement of tree height, tree diameter, basal area, land area and tree volume is studied. Fixed area sampling, point sampling and tree marking are field trip topics.
The Common Lecture/Lab portion of the Soil Studies course provides an introduction to the physical and chemical properties of soils. Students develop skills in the identification and classification of soil, physical and index properties, textures, soil moisture, soil porosity, and other aspects of soil science using a variety of field and laboratory methods.
Soil Studies II course for the Ecosystem Management and Forestry Technician Programs continues with physical and chemical properties of soils and introduces the biological component required for the understanding of forest soils. The student will determine soil textures, pH; moisture regimes and drainage, identification of mineral and organic soil profiles: application of the Forest Ecosystem Classification methodology, and perform a soil/site description in the field. Throughout the course analytical skills will be developed that are typical of site evaluation and environmental studies.
This course deals with the identification of approximately 100 species of trees and shrubs of importance to those managing the forests resources of Ontario. Throughout the semester identification features for common trees and shrubs in both summer and winter condition are introduced and applied. A number of field trips are utilized to assist students with their identification skills. In the weekly lecture series topics such as tree growth, reproduction, photosynthesis, respiration, forest ecology and uses of trees will be introduced. At the completion of the course students will have a sound working knowledge of dendrology. The skills introduced in this semester may then be used in following semesters when working with Forest Ecosystem Classification, Restoration Ecology, Conservation Planning and other habitat management situations.
This course is an introduction to a range of skills in wildlife observation. A variety of wildlife species may be present in an environment despite not being seen. Important skills include visual and auditory identification of wildlife signs. The primary emphasis in this course will be on identification of wildlife signs such as tracks, trail patterns, scat, skulls, impacts on the environment, bird song and amphibian calls. Documentation of wildlife observation will be practiced regularly. Field guides, photography, binoculars and spotting scopes will be used to document wildlife sightings and their signs.
This course is an introduction to the study of Indigenous (First Nations, Metis, and Inuit) peoples in Canada. Students will explore the complex historical and contemporary relationships between Indigenous and non-Indigenous peoples. The course will also guide students to begin to understand the diversity and depth of Indigenous societies, worldviews, and knowledge through a multi-disciplinary lens.
Students taking this course will develop skills, knowledge, and attitude in the management of lake, river, wetland and marine ecosystems. They will apply current theories of ecosystem management to aquatic environments by studying abiotic, biotic, and cultural components at a variety of spatial and temporal scales.
This field camp is a mandatory diploma requirement of the Ecosystem Management Technician Program. It consists of three days of field study followed by independent work for the completion of related assignments.
This is an introductory level course in Vector GIS. Students will be exposed to various components of Vector GIS, including co-ordinate systems, map projections, data sources and data structures. Students will also learn how to produce maps in order to effectively communicate geographic information. Data collection techniques will be explored through the use of a GPS receiver.
This course provides an introduction to laws that have an impact on the use of natural resources in Ontario. The course will deal with an overview of the legal system, the underlying principles of gaining compliance, and specific legislation that may be encountered in the natural resources field.
A course to develop skill, knowledge and attitudes in restoration and preservation of ecosystems. Students will develop scientific knowledge of current methodologies and technologies in restoration.
This course covers data organization, the basic statistical parameters, confidence intervals for means, the normal distribution, hypothesis testing (Chi-square, 'F', 't' and Anova), and regression analysis.
Students taking this course will develop skills, knowledge, and attitude in management techniques for terrestrial ecosystems, including forest management planning on crown and private lands. They will apply current theories of ecosystem management to the terrestrial environment through study of abiotic, biotic, and cultural components. Completion of this course, along with Aquatic Ecosystems (ECOS 3), will prepare students for a wide range of employment opportunities in the field of ecosystem management.
All graduates of diploma programs require general education credits. These courses allow you to explore issues of societal concern by looking at the history, theory and contemporary applications of those issues.
Your program has designated some required general education courses. In addition, you have the opportunity to choose from a list of electives each semester.
Many of these courses and some other general education courses are also available through evening classes, by distance education, or on-line. See our Part-Time Studies Calendar for these opportunities.
You may already possess general education equivalencies from other colleges or universities. Please see the General Education Co-ordinators at the Peterborough and Lindsay locations for possible exemptions.
This course focuses on public speaking, and the production and use of visual materials. Videotaping will be used to evaluate presentation delivery and stage presence. Students will also develop skills in the chairing and minute taking of a meeting, as well as conducting and participating in an effective interview experience, and the development of a career portfolio.
The course examines elementary principles of data acquisition, data management, and spatial analysis, using the raster data model. Laboratory exercises will allow students to become familiar with the operation of GIS software commonly used in the field. The students will be exposed to various hands-on projects/applications involving the use of GIS software.
This course provides students with technical skills and knowledge related to monitoring and assessing ecosystem health and change in terrestrial and aquatic ecosystems. An emphasis will be placed on scientific methodology, report-writing skills, and experimental design principles. Students will also become familiar with the federal and provincial Environmental Assessment acts.
This 80 - hour (2 week) course will take place during weeks 14 and 15 (April) of Semester 4. The student will be engaged in a Field Placement for an organization whose primary focus and core business is of an environmental nature.
This course examines self-awareness, interpersonal relations, motivation, small group dynamics, leadership, conflict management, team success tools/strategies, and organizational behaviour. Contemporary developments reshaping human relations will be introduced for study and discussion. These skills will help students achieve successful team membership in their chosen careers.
Humans are now the most significant selective force on Earth which has resulted in our current geological period being named the Anthropocene. This course examines the life history, behaviour and habits of plant and animal species in the context of human activities. Management techniques will include methodology, materials, equipment, and strategies used for resolving issues with plants and animals. It will also explore laws and hazards of repelling or removing such species and the risks to humans, plants, and animals. Most importantly, all methods and strategies will be examined in the context of the ecology of humans and wildlife.
This course introduces the students to tree anatomy, tree physiology, urban soil conditions, tree installation and the impact of construction on tree health. Field trips deal with tree selection, tree pruning, tree reaction to wounding and an introduction to hazard tree assessment.
This is a student placement undertaken with an agency and approved by the course instructor(s). It is designed to provide the student with an opportunity to apply ecosystem management skills and knowledge and to allow for the development of basic project management skills.
This field camp is a mandatory diploma requirement of the Ecosystem Management Technology Program. It consists of four consecutive days of field study followed by independent group work to complete assignments.
This course focuses on the study of First Nations people in Canada and abroad from cultural, economic, political and natural resource perspectives. Contemporary developments shaping First Nations involvement in ecosystem management and sustainable development initiatives will be introduced.
This course will cover some of the key aquatic and terrestrial habitat assessment methodologies currently used in the environmental and natural resources sector. Successful completion of this course will provide the student with a solid understanding of and familiarity with standard field and lab protocols; results preparation, analysis and interpretation; report writing and information sharing; relevant policy/legislation, and critical thinking skills related to natural heritage area planning, environmental impact studies and other activities.
This course explores the various and often controversial ways in which economics can be used to understand individual, business, and public policy treatment of natural resources and the environment. It introduces fundamental economic principles and examine how they might apply to the human relationship with the natural world. It grapples with the basic issue of how we humans value and distribute nature's benefits and burdens across space, time, and the human community.
This is an introductory course in Remote Sensing and Satellite data processing. The course highlights the principles of remote sensing, characteristics of the electromagnetic spectrum, operational airborne and satellite sensors, image processing strategies, applications of remote sensing and linkages of remote sensing with GIS. Furthermore, the students are exposed to various computer exercises and hands-on projects/applications involving the use of PCI Image Analysis/GIS software.
This course will examine past, present, and future elements of urban ecosystems through the study of the social, political, and economic structures that influence the urban environment. This course will examine the challenges faced by urban ecosystems and the solutions that can be adopted to enable future generations to maintain a standard of living within the urban landscape that is healthy, sustainable and cognitive to the natural world upon which our collective existence depends.
This course provides students with the opportunity to explore how GIS technology is being used in a wide variety of natural resource and environmental applications locally, provincially, nationally, and internationally. Hands-on experience using ArcView GIS will allow students to continue to develop their GIS analysis skills. Term projects will provide the opportunity to use GIS as a tool to facilitate the management of, or solution to, a natural resource or environmental plan.
This is a student placement undertaken with an agency and approved by the course instructor(s). It is designed to provide the student with an opportunity to apply ecosystem management skills and knowledge and to allow for the refinement of basic project management skills.
The concept of ecosystem sustainability and health is studied from a human perspective. Aquatic, terrestrial, urban and agricultural ecosystems are examined using an interactive, case-based approach. Student participation and leadership are key components of assessment and evaluation.
This course examines the life history, biology, and habitat requirements of a variety of wildlife species. Instruction will include standard field and laboratory techniques used in the study of wildlife populations and the basic principles of wildlife management. Current methodology involved in assessing habitat quality and setting harvest limits and targets of selected big game species will be considered.
This course will examine how "sustainable" decisions are made in practice within organizations including corporations, governments and NGOs (Non-Government Organizations). Students will explore the concept of sustainability; the idea of balancing economy, society and environment in all decisions; and how different organizations have put the concept of sustainability into practice. Drawing on case studies, the experiences of practitioners, and real-life sustainability issues, the objective of the course is for students to gain knowledge about the implementation of sustainability in practice within the kinds of organizations they may work for after graduation.
Students will discover the dynamics of planning legislation in directing growth and form of communities and region. Development controls that direct planning of regions and communities will be examined. An understanding of Natural Heritage Systems Planning will be attained. Students will understand the concepts required to prepare and review a development application.