Module Information
Module Identifier
BS34020
Module Title
POPULATION & CONSERVATION GENETICS
Academic Year
2010/2011
Co-ordinator
Semester
Semester 2
Pre-Requisite
BS22120
Course Delivery
Delivery Type | Delivery length / details |
---|---|
Lecture | 24 x 1h lectures |
Other | 5 x 3 h workshops |
Assessment
Assessment Type | Assessment length / details | Proportion |
---|---|---|
Semester Assessment | Course Work: Four coursework assignments | 30% |
Semester Exam | 3 Hours | 60% |
Semester Assessment | Oral presentation | 10% |
Supplementary Assessment | 3 Hours Examination plus resubmission of failed coursework or an alternative |
Learning Outcomes
On completion of this module, students should be able to write examination essays which demonstrate a clear appreciation of:
- the principles of population genetics
- the application of population genetics, phylogeography and phylogenetic methods to conservation,
- the relevance of transgenic technology to agriculture, conservation and medicine
- the manipulation and interpretation of data, and problem solving in relation to population genetics, phylogeography and phylogenetics
Aims
To provide the theoretical background for understanding population genetics and its relevance to conservation. To inform of the way in which molecular techniques can be used for the management of rare and threatened species. To motivate students, by considering how population genetics, phylogeographic and phylogenetic approaches are used for the management of particular endangered species. To inform students of the relevance of modern transgenic technology to various aspects of biology, including agriculture, conservation biology and medicine.
Content
- Molecular markers and their uses
- Review of basic population genetics (Hardy Weinberg & changes in gene frequency)
- Non-random mating and the consequences of inbreeding on conservation/Metapopulations and population dynamics
- How the loss of biodiversity & genetic diversity affects ecosystem function & environment
- Phylogeographic/phylogenetic approaches to conservation and management
- Consideration of the concept of taxonomic units and their management
- In situ conservation (extinction and preservation)
- Ex situ conservation (Gene banks - preserving genetic diversity for conservation/Reproductive technology).
- Transgenic technology and its application to conservation
- Review of basic population genetics (Hardy Weinberg & changes in gene frequency)
- Non-random mating and the consequences of inbreeding on conservation/Metapopulations and population dynamics
- How the loss of biodiversity & genetic diversity affects ecosystem function & environment
- Phylogeographic/phylogenetic approaches to conservation and management
- Consideration of the concept of taxonomic units and their management
- In situ conservation (extinction and preservation)
- Ex situ conservation (Gene banks - preserving genetic diversity for conservation/Reproductive technology).
- Transgenic technology and its application to conservation
Reading List
Recommended TextFrankham, R., Ballou, J.D., and Briscoe, D.A. (2002) Introduction to Conservation Genetics Cambridge University Press Primo search Supplementary Text
Avise, J.C. (2000) Phylogeography, the history and formation of species Harvard University Press Primo search Hall, B.G. (2001) Phylogenetic trees made easy, a how-to manual for molecular biologists. Sinauer Associates Inc Primo search Page, R.D.M. & Holmes, E.C. Molecular Evolution A Phylogenetic Approach. Blackwell Science Primo search Ridley, M. (1996) Evolution Blackwell Science Primo search Snouls, M. (1987) Viable populations for conservation Cambridge University Press. Primo search
Notes
This module is at CQFW Level 6