Year
2020
Units
4.5
Contact
1 x 120-minute lecture weekly
5 x 1-hour tutorials per semester
1 x 7-hour seminar per semester
1 x 3-hour laboratory per semester
3 x 3-hour computer labs per semester
5 x 1-hour tutorials per semester
1 x 7-hour seminar per semester
1 x 3-hour laboratory per semester
3 x 3-hour computer labs per semester
Prerequisites
1 Admission into GDPSCAQ-Graduate Diploma in Science (Aquaculture)
1a Admission into MEMG-Master of Environmental Management
1b Admission into MSCAQ-Master of Science (Aquaculture)
Must Satisfy: ((1 or 1a or 1b))
1a Admission into MEMG-Master of Environmental Management
1b Admission into MSCAQ-Master of Science (Aquaculture)
Must Satisfy: ((1 or 1a or 1b))
Enrolment not permitted
BIOL3722 has been successfully completed
Assumed knowledge
Knowledge of genetics and ecology similar to that obtained in BIOL2711 and 2702.
Topic description
This topic will teach students how to use genetic information to address consequential questions in ecology, conservation, evolution, behaviour and forensics. The topic will cover theoretical concepts, practical work and several case studies of real research in modern conservation and ecological genetics. Emphasis will be given to explain how different fields of science can benefit from integrating genetic knowledge into their research agenda. Topics covered include the use of data and theory in genetics and genomics to:
- Reconstruct the tree of life
- Manage wild and captive populations of endangered animals and plants
- Clarify aspects of species biology, behaviour and demographic history
- Elucidate cases of individual identity and paternity
- Discover hidden biodiversity
- Understand how historical and contemporary processes have shaped current levels of biodiversity
Educational aims
Students completing this topic will have a broad understanding of how genetic diversity is distributed in individuals, populations and species. This knowledge is essential to:
- Understand ecological and evolutionary processes and human impacts on levels of biodiversity
- Prioritize efforts in conservation biology
Expected learning outcomes
At the completion of the topic, students are expected to be able to:
- Understand anthropogenic, ecological and evolutionary processes that affect the distribution of genetic variation in the natural world
- Become familiar with main methods and statistical approaches used to generate and analyse genetic data from natural populations
- Distinguish which type of genetic information can be used for different fields of science, namely: ecology, conservation, evolution, behaviour and forensics
- Have enhance their oral and written communication skills
Key dates and timetable
Timetable details for 2020 are no longer published.
Sturt Rd, Bedford Park
South Australia 5042
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