Last modified: 30 May 2017 16:48
Terrestrial ecosystems play a pivotal role in modulating the fluxes of energy and matter at the Earth’s surface, including the cycling of carbon, nutrients and greenhouse gases. Understanding the structure and function of terrestrial ecosystems is critical for understanding environmental challenges such as global warming, biodiversity loss, sustainable development and pollution. This course develops principles of systems ecology and biogeochemistry, focusing on the fundamental role played by living things in regulating key ecosystem processes such as carbon cycling, nutrient dynamics, trophic transfers, and land-atmosphere exchange of greenhouse gases.
|Session||First Sub Session||Credit Points||15 credits (7.5 ECTS credits)|
This course will develop the fundamental principles of ecosystem ecology and biogeochemistry, to further develop the students’ understanding of how the principles of systems ecology can be applied to understand the structure and function of both natural and managed ecosystems. Key topics include: primary production (the carbon cycle, photosynthesis, plant growth and allocation patterns, plant ecophysiology); soil microbiology & organic matter dynamics (decomposer organisms, soil respiration, decomposition pathways, plant-microbe interactions); nutrient cycling (nutrient acquisition by plants, nutrient dynamics in soil, the nitrogen cycle); and ecosystem sustainability (human impacts, feedback effects). The course is structured according to an inverted or “flipped” classroom format, with lecture content delivered via video. In-class time will consist of active learning activities, including literature analysis and critique, conceptual problem-solving exercises, quantitative numerical assignments, and laboratory practicals.
This course runs in weeks 13-17, and is scheduled in Thread 1, so may have contact hours in any or all of these times: Mondays, 9-13; Thursday, all day; Friday, 9-13. If this is an optional course, there may also be contact hours on Wednesdays, 11-13.
This is the total time spent in lectures, tutorials and other class teaching.
This course consists of 100 % continuous assessment. 1st attempt: (i) written assignment (literature critique; 40 %), (ii) practical assignment (35 %), and (iii) a group executive report (oral presentation; 25 %). Resit: Similar to 1st attempt, with continuous assessment mark(s) carried forward with an opportunity to resit the component which was failed in the first attempt
Formative assessment forms a core component of the course as a means of developing key subject-specific and generic (i.e. transferable) skills. These include a range of activities, including structured small group exercises and individual numerical assignments.
Each student or group will receive feedback and a mark for each formative and summative assessment. Feedback will be provided in either oral or written form for formative assessments, depending on the nature of the exercise. Written feedback will be provided for summative assessments. Students who are identified as having difficulty in successfully completing the coursework assessment tasks or participating small group exercises will be invited to meet the course coordinator to identify difficulties and discuss solutions.