|Teaching method||Contact hours|
|Course coordinator(s)||dr. ir. MFLLW Lürling|
|Lecturer(s)||dr. ir. JJM de Klein|
|prof. dr. AA Koelmans|
|ing. JAJ Beijer|
|dr. ir. MFLLW Lürling|
|Examiner(s)||dr. ir. MFLLW Lürling|
Language of instruction:
ZSS06100 Laboratory Safety
Assumed knowledge on:
AEW-23803 Water II, or comparable such as "Limnology: Lake and River Ecosystems" - R.G. Wetzel
The aim of this practical is to illustrate the functioning of aquatic ecosystems and to acquaint students with the research methods that have been developed to analyse the most important processes. In particular the oxygen- and carbon cycle will be studied, as well as the productivity of algal- and water plant-dominated systems. A few selected processes will be studied in detail by means of field and laboratory experiments (reaeration, primary production, predator-prey interactions). Relations between dominant organisms will be studied. In the third week, the entire group will receive in-depth limnological training at Lake De Kienehoef (Sint-Oedenrode) and its adjacent pond in the park. The field practical will be linked to lake restoration. This five-day intense field practical includes camping at the site, where the focus will be on the limnology of a deep lake. Irradiance, temperature and oxygen take the lead here: irradiance and temperature steering the process of primary production and oxygen level being the response. However, also other water quality variables will be addressed and a search for the cause of extinction and turbidity will be undertaken. Close attention will be given to some of the key players in aquatic food chains. A detailed description of abundance and spatial distributions of some of these organisms (macrophytes, macrofauna and zooplankton) will be made. The fish community will be sampled. The results will be used in (simple) models in order to simulate the processes and an overall report will be written.
After successful completion of this course students are expected to be able to:
- set up and perform an experiment;
- set up a monitoring programme that meets the ambient environmental limitations;
- rationalize and evaluate the selection of a sampling technique;
- describe dynamical abiotic processes in aquatic systems;
- describe biological processes and interactions in aquatic systems;
- recognize different relations between biota and habitats;
- apply simple models to describe selected processes in aquatic systems;
- recognize different water types on the basis of structural and functional characteristics;
- present the results of an experiment to a critical audience;
- work with a lab/field notebook.
- make a workplan of an elaborate experiment using LabBuddy;
- do experiments in the laboratory as well as in the field;
- extrapolate results of laboratory experiments to the field situation;
- analyse results;
- apply existing models
- compare own results with literature data;
- give a presentation of a part of the research.
- presentation/reports (group 50%);
- presence, participation and/or results during course activities (individual; 50%).
Successful partial interim examinations remain valid for a period of three years.
A manual and lecture notes will be distributed during the course.
|Restricted Optional for:||BSW||Soil, Water, Atmosphere||BSc||6WD|
|MEE||Earth and Environment||MSc||C: Spec. C - Biology and Chemistry of Soil and Water||6WD|
|MES||Environmental Sciences||MSc||A: Spec. A - Environmental Quality||6WD|
|Restricted Optional for:||WUMLR||BSc Minor Marine Living Resources||6WD|