Ecology is an more and more quantitative scientific discipline which focuses on the study of abundance and distribution of organisms. To be able to understand and predict outcomes of complex ecological changes such as climate change, habitat destruction, and pollution requires mastering some basic ecological principles. Such principles are typically formalized as mathematical models that can be used in analysis or simulation of complex problems. This course covers the most common mathematical models in population and community ecology, describing the dynamics of single populations, as well as interacting populations.
Prerequisites
In order to take this course, the student must first have completed the following course:
MA116F Mathematics for biologists, BI123F Ecology
Learning outcomes
Upon successful completion of this course, the student should be able to:
Knowledge
- Have broad knowledge of the principles and underlying assumptions of basic mathematical models in ecology
- Know of the development of central theories in ecology and its application in the study of population dynamics
Skills
- Can construct basic mathematical models for analyzing problems in population dynamics
- Can use computer simulations as a tool in analyzing ecological problems
- Can analyze the dynamics of populations by use of mathematical models
General competence
- Can make decisions on what to sample to effectively quantify population dynamics of natural populations
- Can describe and analyze the dynamics of populations based on suitable data sets
- Can partake in scientific discussions of mechanisms behind variability in population size and distribution
Files/Documents
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