Applied Environmental Science and Planning Technology - Diploma
Overview
Do you have an interest in protecting land, natural resources and the environment? Do you like hands-on learning in the field and in the lab? If your answer is yes, then our leading-edge Applied Environmental Science and Planning Technology (AESP) Program is a great fit. You’ll acquire interdisciplinary, employment-ready skills to tackle today’s environmental challenges and develop a range of applied environmental skills and technologies.
This program prepares students to meet the growing need for technologists capable of assisting in all areas of land use and environmental planning, environmental chemistry, hydrology, applied ecology, microbiology and geographic information systems (GIS). Graduates possess the practical field and laboratory skills and technical competencies to acquire, compile, analyze, evaluate and present environmental information and to integrate it effectively into formal planning and review processes.
Courses cover a range of topics, including botany, soil science, hydrology, surveying, ecology, fish and wildlife, GIS, ecological restoration, First Nations, air and water pollution chemistry, environmental planning, microbiology and sustainability.
Accreditation
The AESP Program is nationally accredited through Technology Accreditation Canada (TAC). It is provincially accredited by the College of Applied Biologists.
To help ensure the program is assessed for quality industry outcomes, relevancy and currency, the program is updated continuously based on feedback from our Program Advisory Committee consisting of industry, government, Indigenous representation and past graduates.
Transferability
Many of our graduates seek meaningful, relevant employment while others choose to transfer to universities to complete a degree. The AESP Program transfers to the Bachelor's Degree in Geographic Information Systems (BGIS) here at Selkirk College.
Selkirk College also has direct transfer arrangements with other universities in BC:
- Thompson Rivers University (TRU), Bachelor of Natural Resource Science
- British Columbia Institute of Technology (BCIT), Bachelor of Science in Ecological Restoration
- University of Northern BC, Bachelor of Planning
- Royal Roads University, Bachelor of Environmental Science
It is recommended that students consult with the program advisor of the receiving institution to ensure they have met all the necessary transfer requirements.
Common Core
The first year of AESP consists of a core of environmental courses in soils, hydrology, botany, surveying, fish and wildlife, ecology, mapping, communications, computers and math. This core year is common with the Forest Technology and Recreation, Fish & Wildlife programs.
The second year of the program synthesizes the skills, knowledge and professionalism of first year and ladders into planning, sustainability and more advanced environmental science classes.
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Program Outcomes
Upon successful completion of this program, learners will be able to:
1. Demonstrate professional ethics and competencies as environmental technologists
2. Integrate ecological knowledge to assess environmental conditions
3. Analyze the hydrology and ecology of the atmosphere, rivers, lakes, watersheds, and groundwater
4. Apply environmental procedures for monitoring air, water, sediment, and biological media
5. Apply environmental assessment, mitigation, remediation, and restoration techniques
6. Collect, evaluate, and summarize ecological and geospatial data
7. Design and implement a planning framework for identifying and addressing land use, environmental and social challenges, and opportunities across a variety of landscapes
8. Engage with a variety of audiences using diverse communication approaches including written, verbal, numeric, and graphic
9. Model strategies to encompass emerging science, technologies, regulatory environments, and societal shifts including climate change and mitigation, green energy, carbon accountability, and the UN Sustainable Development Goals
10. Recognize the diversity of Indigenous Nations’ cultures and traditions as distinct knowledge systems that are valid and critical to building meaningful engagement, consultation, and collaborative relationships
11. Acknowledge the calls to Truth and Reconciliation and the United Nations’ Declaration on the Rights of Indigenous Peoples as inclusive and informed constructs for Indigenous rights and title in the stewardship of land, air, water, and all living things
Admission Requirements
In addition to meeting the general admission requirements to Selkirk College, the applicant must meet the following Environment and Geomatics Programs requirements to be considered fully-qualified:
Successful completion of these high school or equivalent courses:
- Foundations of Mathematics 11 with a minimum of 67% or higher
- Any BC Science Curriculum (with a lab component) at the grade 11 or 12 level with a minimum of 67%
- English Studies 12 with a minimum of 67% or higher
NOTE: Applicants in Grade 12 at the time of application must show proof of registration or completion of the above courses.
Applicants that require upgrading may still gain provisional acceptance for program seats if they can show proof of registration (with time for likely completion) of prerequisite high school courses before Fall Term start dates.
All applicants must be in good health and reasonably good physical condition. A demonstrated interest in, and aptitude for, outdoor work is essential as much of the work is done in the field, often under adverse and arduous weather and topographic conditions. A self-assessment fitness checklist is available on request.
Computer competency is an important element of success in the program. Prior to starting the program, it is strongly recommended that students have entry-level experience with word processor, spreadsheet and web-browsing software. Check out Selkirk College Community Education & Workplace Training computer courses.
General
Applicants must submit a completed application form and other required documents (i.e. secondary school and any post-secondary transcripts, application package) to the Registrar’s office.
Applied Environmental Science and Planning Technology (AESP)
(i) One or more of the following or equivalent are recommended but not required for admission:
(a) Class 5 Driver's License
(b) Occupational First Aid Level 1 with Transportation Endorsement and/or Wilderness First Aid
(c) Physics 11 and Chemistry 11 and 12
(ii) Most learning activities within the program reflect industry norms. Training often occurs in front and back country wilderness terrain. Therefore, applicants should be in good health and physical condition. Activities will be taught which require student participation walking outside for up to 10 hours per day and up to two weeks in duration. Students will be required to hike, snowshoe, etc., for four to eight hours at a time over rough, sometimes hazardous terrain in all weather conditions. Other activities may include touring and observing active industrial operations. Students will be required to observe all required and standard safety practices and procedures at all times.
APPLICATION PROCESS
The Application process is complete and admission to first year will be considered with:
1. Receipt of the "Application for Admission" form plus the required application fee, and;
2. Receipt of official high school and post-secondary education transcript(s) or interim transcript or proof of registration in prerequisite courses (if in Grade 12), and;
3. The date when an applicant's file is complete is the date when all the requirements of a) and b) above have been fulfilled.
CHANGE OF PROGRAM
There is some limited availability for students to change programs in the first year however, the following conditions must be met:
1. Students who want to change programs must apply in writing to the School Chair before January 15th during the first year of their original program.
2. Program changes will only be permitted provided there is space as determined by the School Chair.
3. Students may need to complete prerequisite courses prior to the beginning of the second year.
In order to receive your credential in your program, you must maintain a minimum GPA of 2.00.
PROMOTION
1. Promotion to Subsequent Semester
Each semester must be completed with a Grade Point Average of 2.00 ("C" average) or better with no more than two grades below a "C" to continue into the next semester. GPA will be based on all grades for courses scheduled for a given year and semester as per the course calendar. All grades below a "C" grade must be raised to a satisfactory level to graduate.
Students not eligible to continue to the next semester must repeat all courses with grades below a "C" prior to proceeding to the next semester.
2. Admission Requirements - Second Year
Normally all first-year courses must be completed with a grade of "C" or better before a student is admitted to the second year of their program. Students in this situation should contact the School Chair.
3. "C-" Grade
Students receiving a final grade of "C-" in the prerequisite course will be required to withdraw from the subsequent course requiring the prerequisite. Students receiving the "C-" grade must re- register in, and successfully complete the course with a "C" grade or better before going on to the subsequent course.
4. "P" Grade
Students receiving a final grade of "P" in a prerequisite course will not be allowed to register in a subsequent course requiring the prerequisite. Students receiving the "P" grade must re- register in, and successfully complete the course with a "C" grade or better before going on to the subsequent course.
5. "F" Grade
A grade of "F" requires re-registering in, and repeating, the entire course. Under normal circumstances and due to changing course content, students receiving an "F" in a course(s) will be required to repeat the course within one year to receive credit. If an "F" grade is received twice in a particular course, the student will not be allowed to repeat the course again and will be required to withdraw from the program.
GRADUATION
Credentials:
i. A cumulative GPA of 2.0 and a final grade of "C" or better in all courses in the Forest Technology, Integrated Environmental Planning Technology Program, Recreation, Fish and Wildlife Technology Program is required for graduation.
ii. A student will be expected to complete the requirements for a diploma within a maximum of four years from the initial admission.
iii. No diploma will be awarded without meeting all obligations to the College. This includes returning all equipment signed out and paying all outstanding fees.
b. Types of Credential Received
Diplomas – Forest Technology; Applied Environmental Science and Planning Technology 1; Recreation, Fish and Wildlife Technology
1 New credential applies to Fall 2023 intake and going forward.
c. Requirements: (see Policy 8617: Graduation)
INSTRUCTION: Graduation requirement table must contain the following elements: course (abbreviation and number), name of course, and number of credits as illustrated below.
Certificates: All students require a valid OFA level 1 first aid certificate at the time of graduation. RFW students require one additional certificate of their choice from the list of acceptable credentials published yearly by the School.
Courses
ENVR150 - Hydrology I
ENVR 150 Hydrology I is an introductory study of water in our environment including its properties, the natural processes which affect it, and climate and weather. Students will gain practical experience in the collection and analysis of field and laboratory data using standard techniques and equipment.
ENVR160 - Surveying and Field Measurements
ENVR 160 Surveying and Field Measurements is an introduction to the practical use of common survey instruments and techniques used by Environmental technicians. As well, the course will introduce the student to various sampling methods used to collect, assess, classify, and evaluate field data. Emphasis is placed on the proper care and use of basic surveying and measurement tools and the skills involved in collecting and interpreting precise and accurate field data.
ENVR162 - Applied Botany and Ecosystem Classification
ENVR 162 Applied Botany and Ecosystem Classification is an introduction to the principles of Botany and Ecosystem Classification. Botany lectures will focus on plant classification, botanical terms, plant morphology, and plant physiology. Topics include: plant cell structure, plant tissue function and structure, photosynthesis and respiration, transpiration and translocation. Botany labs will focus on learning to identify about 100 native plants commonly found in the West Kootenay Region of B.C., specifically key indicator species. Ecology lectures will focus on ecosystem classification using the Biogeoclimatic Ecosystem Classification System (BEC) of B.C. Other key topics include the study of climatic factors, disturbance and succession, landscapes and stand structure. Ecology labs focus on classifying ecosystems (including soils, site and vegetation) to site series using BEC. Labs are mainly field based.
ENVR164 - Soil and Earth Sciences
ENVR 164 Soil and Earth Sciences will cover the identification of common rocks and minerals, landforms and soils of British Columbia. Learners will be introduced to the study of physical geology and geomorphology in relation to management of the forest environment and landscape. Learners will gain skills and knowledge in rock and mineral identification, description of the physical and chemical qualities of soils, and identification and classification of landforms and terrain. Skills will also be developed with respect to interpretation of geology, landforms and soils for environmental management.
ENVR190 - Computer Applications I
ENVR 190 Computer Applications I builds on student’s previously acquired computer skills. Computer applications specific to career opportunities in the environment and geomatics sector will be covered. This will include proper file management techniques for the geomatics environment, Microsoft (MS) Word processing for report writing, MS PowerPoint use for presentations, and MS Excel for data entry, analysis and visualization.
MATH160 - Technical Math Review
MATH 160 Technical Math Review is a mathematical review course for first-year students in the School of Environment and Geomatics (SEG) diploma programs. This course will provide a review of mathematical concepts which you will need for your other SEG courses. Materials to be covered include: unit conversions, trigonometry, exponentials and logarithms, problem solving, slope calculations, distance and direction calculations.
TWC150 - Introduction to Technical Writing and Communications I
TWC 150 Introduction to Technical Writing and Communications I is an introduction to general principles in written technical communication and their application to environmental concerns and workplace communication. Classroom sessions focus on developing writing skills, the organization and presentation of data, basic report formats, and job search techniques.
ENVR154 - Maps and Navigation
ENVR 154 Maps and Navigation focuses on the navigation skills required of technologists working outdoors to locate oneself, stay ''found'', and return safely from the field. The course includes hands-on use of navigation tools in field settings including map, compass, aerial imagery, altimeter, and Global Positioning System (GPS). Pre-trip planning in a navigation context will also be covered including developing access plans and route plans, and estimating travel times.
ENVR158 - Introduction to Geomatics
ENVR 158 Introduction to Geomatics is an introduction to applied mapping and geographic information systems (GIS) theory and applications. The first half of the course will be focused on introducing basic uses of remotely sensed imagery and exploring applied mapping technologies, including Google Earth and Internet Mapping websites. The second half of the semester will be focused on learning basic Geographic Information System concepts and applying GIS technologies to environmental, renewable resource management, and planning fields. Emphasis will be placed on how geographic data is represented, collected, managed, analyzed, and displayed using GIS tools. Hands-on experience will be developed with desktop GIS software, ESRI's ArcGIS for Desktop.
ENVR163 - Terrestrial Ecology and Biology
ENVR 163 Terrestrial Ecology and Biology builds upon the concepts from ENVR 162 with further studies of local forest ecosystems. Students will identify key forest structural components and study the role that disturbance (such as fire), environmental gradients, and competition play in defining a species' niche. Participants will also examine the role of primary and secondary growth, nutrient uptake, reproduction, and survival mechanisms for plants. Winter plant identification, ecosystem form and function, and plant adaptations to timberline will also be examined. A practical field based assignment will form a major portion of the term assessment. This project includes collecting the data in the field, entering and analyzing the data in the computer lab, and presenting the data in a written scientific report.
MATH190 - Resource Statistics I
MATH 190 Resource Statistics I is an introductory applied statistics course for environment and geomatics students. Topics include: types of data, descriptive statistics, probability and random variables, discrete probability distributions, continuous probability distributions, confidence intervals, sample size, and hypothesis testing.
TWC151 - Introduction to Technical Writing and Communications II
TWC 151 Introduction to Technical Writing and Communications II is an introduction to general principles in written scientific communication, research strategies, and oral presentations. Lectures and in-class writing focus upon research strategies, the formal report, technical style, and graphic illustration. Students practice delivery techniques for oral presentations and learn research skills for research report preparation.
AESP (IEP)276 - Ecological Restoration and Remediation
AESP (IEP) 276 Ecological Restoration and Remediation will cover applied ecological restoration and remediation techniques common in the environmental planning and management fields. Restoration project planning and implementation will follow techniques developed by the International Society for Ecological Restoration (SER). Topics covered will include restoration research, project scoping and plan development, field data collection, plant propagation techniques, project implementation in the field, routine and intensive monitoring, and report preparation. Learners can expect to be in the field every day and working on data collection and synthesis during the evenings. This is an intensive 32-hour course offered in a one-week time block in the spring semester.
AESP (IEP)277 - Environmental Planning Field Applications
AESP (IEP) 277 Environmental Planning Field Applications involves the development of a planning project in a local regional district. Learners will be involved in scoping of the environmental planning issues, stakeholder consultation, and design of critical planning elements. This is an intensive 35-hour course offered in a one-week time block in the spring semester.
AESP (IEP)200 - Field Trip Study
AESP (IEP) 200 Field Trip Study is delivered during the 4th semester of the IEPT program. The field trip provides an opportunity for students to observe current environmental management practices, ecosystems and resource management issues in other regions of the province. Students will be actively involved in trip planning and will be presented with opportunities to develop communication skills and professionalism. This course is available only to students registered in the second year of the IEP Program. Students may be required to pay for accommodation and meals during the trip.
AESP (IEP)250 - Environmental Planning Applications I
AESP (IEP) 250 Environmental Planning Applications I is the first course in a two course Integrated Environmental Planning Applications continuum. It focuses on the development of professional land use and environmental planning skills and their practical application. Using a combination of classroom interactive lectures and weekly field based labs, the physical, on the ground, aspects of development and conservation planning are a primary focus of this course. The course also emphasizes the understanding and development of practical strategies to achieve land use and environmental planning objectives.
Plan development and plan implementation, regulatory agencies and regulations, planning history, group process and methods for the practical application of landscape ecology and conservation development are also covered. Students are expected to attend class and labs regularly and contribute actively and evenly to in-class
discussions.
AESP (IEP)260 - Systems Ecology
AESP (IEP) 260 Systems Ecology is an introduction to the science of ecology, building on concepts and information introduced in ENVR 160, 161 and other first year ENVR courses. Emphasis is placed on the basics of ecology, and will focus on the structure and function of various communities including alpine, subalpine, wetland, and riparian ecosystems. The labs will explore various methods of sampling, analyzing and reporting on the physical site factors, vegetation and wildlife components of these communities.
AESP (IEP)270 - GIS Applications I
AESP (IEP) 270 Geographic Information Systems (GIS) provide the capability to effectively create, edit, display, manage and analyze spatial data; data that is georeferenced to the earth. This course introduces the fundamental concepts and applications of GIS with a specific focus on environmental planning subjects. Emphasis is placed on developing hands-on expertise with world leading commercial desktop GIS software (ArcGIS) for displaying and querying spatial data, manipulating tabular data, completing queries, developing charts and producing effective map layouts. Finally, this course incorporates digital data collection using mobile technologies.
AESP (IEP)280 - Environmental Chemistry
AESP (IEP) 280 Environmental Chemistry is an introductory environmental chemistry course covering chemical theory, calculations, measurements, and laboratory skills. Laboratory exercises address basic skills including laboratory safety, quantitative measurement, and use of common laboratory apparatus. Laboratory exercises are derived from standard methods for the examination of water and wastewater. The course goal is for graduates to master basic chemical theory, solve chemistry problems, use environmental chemistry references, demonstrate safe chemistry laboratory practices, and perform standard methods for the determination of total, suspended and dissolved solids, pH, conductivity, dissolved oxygen, alkalinity and turbidity in water and wastewater samples.
AESP (IEP)290 - Environmental Sustainability and Practice
AESP (IEP) 290 Environmental Sustainability and Practice concerns the relationship between humankind and the environment. This course explores that relationship and how, in the words of the Brundtland Commission Report, ''we may live to meet the needs of the present generation without compromising the ability of future generations to meet their own needs.'' Clearly, there is no single route to achieving sustainability. Therefore, readings by many authors, technical experts, scientists and philosophers comprise a central component to illustrate the complexity of the topic, the diversity of approaches, and the resistance to change. There is substantial focus on applied skills related to current applications of sustainability principles across the economic spectrum and in particular to resource management, energy conservation and renewable energy.
MATH291 - Resource Statistics II
MATH 291 Resource Statistics II is a continuation of Math 190 Resource Statistics I. Topics include linear regressions and correlation, inferential statistics, confidence intervals, hypothesis testing, goodness of fit, contingency tables, and ANOVA.
AESP (IEP)251 - Integrated Planning Applications II
AESP (IEP) 251 Integrated Environmental Planning Applications II is the final course in the three course Integrated Environmental Planning Applications continuum. It focuses on the development of professional planning skills and the practical application of the technical skills and scientific knowledge developed in other IEP courses. The majority of each student’s grade is determined by their preparation of a component of the courses capstone project. Preparation of this study takes place in discrete states throughout this course. Plan development, citizen participation strategies, and plan implementation strategies are the major focus of this course. Environmental assessment, planning process, planning theory, and planning ethics are also covered in this course. Students are expected to attend class and labs regularly and contribute actively and evenly to in-class discussions.
AESP (IEP)255 - Hydrology II
AESP (IEP) 255 Hydrology II is a continuation of Hydrology I, in which students collect, record and analyze hydrological data for streams, drainage basins, lakes and reservoirs, groundwater and meteorology. Hydrology II is a more in-depth study of the effects of water on our environment, and how we can understand and mitigate our impacts and support natural hydrologic cycles. Practical examples are presented for examination, data collection, analyses, and interpretation in several areas including: snow pack, winter limnology, groundwater, surface runoff, flooding, regulated rivers and meteorology. We will also examine environmental legislation pertaining to hydrology.
AESP (IEP)266 - Applied Microbiology
AESP (IEP) 266 Applied Microbiology is an introductory applied microbiology course. This course covers basic microbiological theory and an introduction to applied microbiological skills including safe work practices; aseptic technique; preparation of media; isolation and growth of pure cultures; Gram staining; tissue culture; microbial enumeration using pour and spread plates, membrane filtration and optical density; and identification of microorganisms using biochemical tests.
AESP (IEP)271 - GIS Applications II
AESP (IEP) 271 GIS Applications II provides an opportunity for AESP (IEP) 2nd year students to undertake a GIS project of their choice. Students apply the GIS skills acquired in previous Selkirk GIS courses (ENVR 158 and AESP (IEP) 270) to a real-world project. A range of GIS methods and data sources will be used, depending on student project selection, but all will include as deliverables a project proposal and report, a spatial analysis of some kind, a final map, and a documented geodatabase. Both GIS and project management skills will be developed by completing the steps required to take a GIS project from initial proposal to final map production and report generation.
AESP (IEP)281 - Water and Air Pollution Chemistry
AESP (IEP) 281 Water and Air Pollution Chemistry examines the applied chemistry of water and air pollution. Major topics include physical and chemical characteristics of water and air, water and air pollution, quantifying water and air pollution, water and air sampling, water treatment, wastewater treatment, mass balance modelling and air pollution dispersion. Applied concepts cover chronic and acute toxicity testing, use of colorimetry and AAS to identify and quantify pollutants, variable speed pumps used with pollution trapping devices for air sampling, gas detection tubes and air sampling meters. Use of spreadsheets for data analysis is an essential component of this course.
AESP (IEP)291 - Applied Research Project
AESP (IEP) 291 Applied Research Project focuses on the preparation of the program's capstone applied research project. The course compliments and is taught in conjunction with AESP (IEP) 251, Integrated Environmental Planning Applications II. Over the course of the Winter semester, learners prepare a professional quality plan for an outside ''pro-bono'' client. The plan preparation process includes independent research and data collection, consultation with independent experts and stakeholders and public presentation of the draft plans.
ENVR250 - Indigenous Rights and Environmental Management
ENVR 250 Indigenous Rights and Environmental Management is an introduction to Indigenous cultures and traditional practices as foundational teachings of sustainability. The overarching focus of the course is recognizing and acknowledging Indigenous rights and traditional knowledge as they relate to environmental management.
With a two-eyed seeing approach, topics associated with environmental management will be viewed through the lens of Indigenous Rights and Truth and Reconciliation. The four main overlapping themes of the course are Indigenous cultures & practices, legislation, treaties, and Indigenous vs. Western approaches to environmental management and protection.
Tuition & Fees
All amounts are estimates and are subject to change. Tuition amounts are based on a full-time course load. Please note that many programs have additional costs beyond those listed here. For more information, please visit Tuition & Fees.
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