ENVS1121 Biogeochemistry (5 cr)
Tweet text
Description
The course follows the chapters of a textbook (Schlesinger William H. & Bernhardt Emily S. 2013. Biogeochemistry – An Analysis on Global Change, 3rd edition. 672 pages. Elsevier).
Part I:
1. Introduction to biogeochemistry & origins,
2. the atmosphere,
3. the lithosphere,
4. the terrestrial ecosystems I,
5. the terrestrial ecosystems II,
6. wetlands,
7. inland waters,
8. the oceans.
Part II - global cycles:
9. the water cycle,
10. the carbon cycle,
11. the cycles of nitrogen and phosphorus,
12. the cycles of sulfur and mercury.
Learning outcomes
Learning objectives of biogeochemistry
Interdisciplinary nature of biogeochemistry. Biogeochemistry utilizes collectively several disciplines (e.g., , biology, geology, chemistry, physics, mathematics, oceanography, atmospheric science).
Basic concepts of different applied disciplines involved in biogeochemistry (atmospheric science, geology, terrestrial biosphere, oceanography and limnology).
The global cycles (pools and fluxes) of some elements (H2O, C, O, N, P and S) and the coupling between individual cycles.
Major physical, chemical and biological processes driving the biogeochemical cycles. Physical processes include e.g., evaporation, melting, thawing, precipitation, plate tectonics, volcanism, erosion, mixing, diffusion, convection, advection, aggregation, runoff, landslides or thermohaline circulation of the ocean. Chemical processes include e.g., weathering, hydrolysis, oxidation, photochemistry, chemical equilibria, pH, redox potential, thermodynamics, stoichiometry, dissolution and fire. Biological processes include e.g., photosynthesis, respiration, transpiration, metabolism, microbiology, enzymatic catalysis, decomposition, dissimilatory and assimilatory metabolism, accumulation and decomposition of biomass.
Human interference in biogeochemistry. This includes e.g., burning of fossil fuels, fertilization, industrial emissions, land use, agriculture, eutrophication, mining, climate change, pollution, water use, damming rivers, and creating reservoirs.
The learning objectives (generic skills)
Chairing a session
Communication in English
Giving a presentation in English
Problem solving skills
Searching of information from reliable sources
Working in a small group
Collective intelligence.
Description of prerequisites
Recommended prerequisites
- Prerequisite group 1
- BENA2020 Ecology (3 cr)
- BENA4028 Natural resources and multi-objective use of forests (3 cr)
- BENA4029 Introduction to Ecotoxicology (3 cr)Not published for this curriculum period
- BENA4030 Energy and matter in the environment and societies (4 cr)Not published for this curriculum period
- KEMP111 Basics in Chemistry 1 (General Chemistry 1) (5 cr)Not published for this curriculum period
- KEMP1120 Chemical Equilibrium and Energy (5 cr)
- KEMP1130 Basics in Inorganic Chemistry (5 cr)
- KEMP114 Basics in Chemistry 4 (Organic Chemistry) (6 cr)Not published for this curriculum period
- KEMP115 Basics in Chemistry 5 (Environmental Chemistry) (4 cr)Not published for this curriculum period
- BENA2002 Microbiology (3 cr)
Study materials
Textbook:
Schlesinger William H. & Bernhardt Emily S. 2013. Biogeochemistry – An Analysis on Global Change, 3rd edition. 672 pages. Elsevier.
· The textbook is available as an electronic copy. After completing an attempt to solve a problem, the students will receive the solutions to the problems by a teacher. Moodle platform may provide additional reference material related to the chapters of textbook. The students also create teaching material themselves when they write questions and answer to those.
Literature
- Schlesinger William H. & Bernhardt Emily S. 2013. Biogeochemistry – An Analysis on Global Change, 3rd edition. 672 pages. Elsevier.
Completion methods
Method 1
Participation in teaching (5 cr)
o The course bases on flipped learning. Each week, students read a chapter from the textbook and try to solve at least one problem given in the end on each chapter. During their self-study, students need also to recognize unclear parts and formulate a question or questions about those. During the weekly meetings, each student will chair a meeting. A chair will review the topic of chapter e.g., by giving a short lecture (15-20 min). Students try to answers to the questions of their peers. This is done first in small groups of two-three students. Then later, the asker of question will receive an answer from a group and all participants are welcome to join in discussion. After the meeting, student need to complete a quiz (in Moodle) concerning the topic of a chapter. A learning diary compensates an absence from a meeting.
· The textbook is available as an electronic copy. The students will receive the correct answers with further clarification after completing the quizzes. After completing an attempt to solve a problem, the students will receive the solutions to the problems by a teacher. Moodle platform provides additionally quizzes related to each chapter if needed. The students also create teaching material themselves when they write questions and answer to those.
· Literature:
o Schlesinger William H. & Bernhardt Emily S. 2013. Biogeochemistry – An Analysis on Global Change, 3rd edition. 672 pages. Elsevier
- Schlesinger William H. & Bernhardt Emily S. 2013. Biogeochemistry – An Analysis on Global Change, 3rd edition. 672 pages. Elsevier