|Course coordinator(s)||prof. dr. PA Zuidema|
|Lecturer(s)||dr. ir. FJ Sterck|
|dr. ir. PA Patrick Jansen|
|prof. dr. K Kramer|
|prof. dr. ir. GJ Nabuurs|
|dr. M Peña Claros|
|prof. dr. PA Zuidema|
|prof. dr. FJJM Bongers|
|Examiner(s)||prof. dr. PA Zuidema|
Language of instruction:
Assumed knowledge on:
Bachelor in Biology, Forest and Nature Conservation, Plant Science, Resource Management or similar field
Thesis Forest Ecology and Forest Management
This course deals with the extraction of resources from natural ecosystems. Resource use includes the exploitation of timber, the collection of fruits and resin, the extraction of wood for biomass production, hunting of animals. Ideally such resources are exploited in a sustainable way, but how should that be defined? And how is sustainable resource use quantified? And, how does resource availability fluctuate over time? In the course, these and other questions will be treated. Students will get hands-on experience in quantifying effects of resource utilization on future resource availability and ecosystem characteristics.
In this course we will treat the following topics:
- status of resources exploited from natural ecosystems worldwide: timber, non-timber, wildlife;
- exploitation as a conservation strategy: concepts and basic theory;
- quantification of resource availability: timber, non-timber products, wildlife;
- analysis of the natural dynamics of populations or ecosystems providing resources: simple models;
- effects of exploitation on future resource availability: simple models.
During the course students will learn to use simple modelling tools to evaluate the dynamics of resources and the effects of exploitation. They will then apply these tools to study real-life cases of resource use, quantify the effects of exploitation and define sustainable extraction levels.
After successful completion of this course students are expected to be able to:
- explain the status of natural resource use and the concept of exploitation in conservation;
- analyse the availability, variability and value of natural resources using inventory data;
- apply simple modelling tools to evaluate resource dynamics, effects of resource use and future resource availability;
- evaluate the sustainability of a resource use system and provide advice on management options;
- reflect on the concept of sustainability and the role of science and scientists in evaluating this.
Working forms include lectures, tutorials, computer practicals, field work and group work.
Students will be evaluated in three ways:
- individual assignment: individual report on one of the papers read and discussed (10%);
- group assignment: written report and oral presentation of case study (50%);
- final written examination (40%).
To be announced.
|Keuze voor:||MFN||Forest and Nature Conservation||MSc||B: Management||2AF|
|MBS||Biobased Sciences||MSc||A: Biomass Production and Carbon Capture||2AF|