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701-1450-00L 3 Credits DR , MSC D-USYS , D-BIOL

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Conservation Genetics

Lecturers & Examiners: Dr. Felix Gugerli, Dr. Martin Fischer, Dr. Christine Grossen

VVZ CR n/a

Last Updated: 2026-06-01 11:33:01

Abstract

The course deals with conservation genetics and its practical applications. It introduces the genetic theories of conservation genetics, such as inbreeding depression, adaptive genetic diversity or fragmentation. The course shows how different genetic methods are used in conservation management, and it critically discusses the benefits and limits of conservation genetics.

Objective

Genetic and evolutionary argumentation is an important feature of conservation biology. The course equips students with knowledge on conservation genetics and its applications in conservation management. The course introduces some of the main theories of conservation genetics and shows how genetic methods are used in conservation management. In addition, it critically discusses the benefits and limits of conservation genetics. Practical examples dealing with animals and plants are presented.

Content

There are 4 hours of lectures, presentations and group work per week. Students also have to spend about 3 hours per week on preparatory work for the following week. Every week, one subject will be presented by one of three lecturers. Overview of themes: Barcoding, eDNA metabarcoding and genetic monitoring; effects of small population size, genetic drift and inbreeding; neutral and adaptive genetic diversity; hybridization; gene flow, fragmentation and connectivity. Specific topics: (1) Introduction to population genetic and genetic toolbox for conservation genetics (2) Inbreeding and inbreeding depression (3) Adaptive genetic diversity (4) Hybridization and monitoring of genetic diversity (5) Half-day field trip on connectivity measures (6) Wrap-up excursion; Identification of species: (meta-)barcoding (7) Written examination

Resources

Lecture Notes

No script; handouts and material for downloading will be provided.

Literature

There is no textbook for this course, but the following book is recommened: Allendorf F.W., Funk W.C., Aitken S.N., Byrne M., Luikart G. 2022. Conservation and the genomics of populations (3rd edition). Oxford University Press, Oxford. The following book and booklets in German are targeted to conservation practitioners: Holderegger R., Segelbacher G. (eds.). 2016. Naturschutzgenetik. Ein Handbuch für die Praxis. Haupt, Bern. Csencsics D., Gugerli F. 2017. Naturschutzgenetik. WSL Berichte 60: 1-82. (free download at https://www.dora.lib4ri.ch/wsl/islandora/object/wsl:15155/datastream/PDF )

General Information

Language: English
Levels: DR , MSC
Frequency: Yearly recurring

Examination

Type: graded semester performance

There will be a written exam after the first half of the semester.

Course Components

Type	Title	Time & Place	Hours
lecture with exercise	Conservation Genetics	Thu 08:15-12:00 (CHN D 44)	60 h semesterly